diff options
author | Andrew Cagney <cagney@redhat.com> | 2003-06-22 16:48:12 +0000 |
---|---|---|
committer | Andrew Cagney <cagney@redhat.com> | 2003-06-22 16:48:12 +0000 |
commit | 345d88d96ee2f82d2ec0d1c69cd14506b707b945 (patch) | |
tree | 77fe7fa191a6afc07968fbe9421257fb5da8c504 /sim | |
parent | 70ecf948d924b4fdc84ba07d2f0c0ee141295ef7 (diff) | |
download | gdb-345d88d96ee2f82d2ec0d1c69cd14506b707b945.zip gdb-345d88d96ee2f82d2ec0d1c69cd14506b707b945.tar.gz gdb-345d88d96ee2f82d2ec0d1c69cd14506b707b945.tar.bz2 |
2003-06-22 Andrew Cagney <cagney@redhat.com>
Written by matthew green <mrg@redhat.com>, with fixes from Aldy
Hernandez <aldyh@redhat.com>, Jim Wilson <wilson@redhat.com>, and
Nick Clifton <nickc@redhat.com>.
* ppc-instructions: Include altivec.igen and e500.igen.
(model_busy, model_data): Add vr_busy and vscr_busy.
(model_trace_release): Trace vr_busy and vscr_busy.
(model_new_cycle): Update vr_busy and vscr_busy.
(model_make_busy): Update vr_busy and vscr_busy.
* registers.c (register_description): Add Altivec and e500
registers.
* psim.c (psim_read_register, psim_read_register): Handle Altivec
and e500 registers.
* ppc-spr-table (SPEFSCR): Add VRSAVE and SPEFSCR registers.
* configure.in (sim_filter): When *altivec* add "av". When *spe*
or *simd* add e500.
(sim_float): When *altivec* define WITH_ALTIVEC. When *spe* add
WITH_E500.
* configure: Re-generate.
* e500.igen, altivec.igen: New files.
* e500_expression.h, altivec_expression.h: New files.
* idecode_expression.h: Update copyright. Include
"e500_expression.h" and "altivec_expression.h".
* e500_registers.h, altivec_registers.h: New files.
* registers.h: Update copyright. Include "e500_registers.h" and
"altivec_registers.h".
(registers): Add Altivec and e500 specific registers.
* Makefile.in (IDECODE_H): Add "idecode_e500.h" and
"idecode_altivec.h".
(REGISTERS_H): Add "e500_registers.h" and "altivec_registers.h".
(tmp-igen): Add dependencies on altivec.igen and e500.igen .
Diffstat (limited to 'sim')
-rw-r--r-- | sim/ppc/ChangeLog | 34 | ||||
-rw-r--r-- | sim/ppc/Makefile.in | 7 | ||||
-rw-r--r-- | sim/ppc/altivec.igen | 2356 | ||||
-rw-r--r-- | sim/ppc/altivec_expression.h | 50 | ||||
-rw-r--r-- | sim/ppc/altivec_registers.h | 63 | ||||
-rwxr-xr-x | sim/ppc/configure | 188 | ||||
-rw-r--r-- | sim/ppc/configure.in | 12 | ||||
-rw-r--r-- | sim/ppc/e500.igen | 3348 | ||||
-rw-r--r-- | sim/ppc/e500_expression.h | 173 | ||||
-rw-r--r-- | sim/ppc/e500_registers.h | 83 | ||||
-rw-r--r-- | sim/ppc/idecode_expression.h | 9 | ||||
-rw-r--r-- | sim/ppc/ppc-instructions | 20 | ||||
-rw-r--r-- | sim/ppc/ppc-spr-table | 2 | ||||
-rw-r--r-- | sim/ppc/psim.c | 82 | ||||
-rw-r--r-- | sim/ppc/registers.c | 29 | ||||
-rw-r--r-- | sim/ppc/registers.h | 30 |
16 files changed, 6387 insertions, 99 deletions
diff --git a/sim/ppc/ChangeLog b/sim/ppc/ChangeLog index 842f172..391cfec 100644 --- a/sim/ppc/ChangeLog +++ b/sim/ppc/ChangeLog @@ -1,5 +1,39 @@ 2003-06-22 Andrew Cagney <cagney@redhat.com> + Written by matthew green <mrg@redhat.com>, with fixes from Aldy + Hernandez <aldyh@redhat.com>, Jim Wilson <wilson@redhat.com>, and + Nick Clifton <nickc@redhat.com>. + + * ppc-instructions: Include altivec.igen and e500.igen. + (model_busy, model_data): Add vr_busy and vscr_busy. + (model_trace_release): Trace vr_busy and vscr_busy. + (model_new_cycle): Update vr_busy and vscr_busy. + (model_make_busy): Update vr_busy and vscr_busy. + * registers.c (register_description): Add Altivec and e500 + registers. + * psim.c (psim_read_register, psim_read_register): Handle Altivec + and e500 registers. + * ppc-spr-table (SPEFSCR): Add VRSAVE and SPEFSCR registers. + * configure.in (sim_filter): When *altivec* add "av". When *spe* + or *simd* add e500. + (sim_float): When *altivec* define WITH_ALTIVEC. When *spe* add + WITH_E500. + * configure: Re-generate. + * e500.igen, altivec.igen: New files. + * e500_expression.h, altivec_expression.h: New files. + * idecode_expression.h: Update copyright. Include + "e500_expression.h" and "altivec_expression.h". + * e500_registers.h, altivec_registers.h: New files. + * registers.h: Update copyright. Include "e500_registers.h" and + "altivec_registers.h". + (registers): Add Altivec and e500 specific registers. + * Makefile.in (IDECODE_H): Add "idecode_e500.h" and + "idecode_altivec.h". + (REGISTERS_H): Add "e500_registers.h" and "altivec_registers.h". + (tmp-igen): Add dependencies on altivec.igen and e500.igen . + +2003-06-22 Andrew Cagney <cagney@redhat.com> + Problems reported by Joshua LeVasseur. * emul_chirp.c: Update copyright. (chirp_emul_nextprop): Return the first property. diff --git a/sim/ppc/Makefile.in b/sim/ppc/Makefile.in index f8e4b86..015fad0 100644 --- a/sim/ppc/Makefile.in +++ b/sim/ppc/Makefile.in @@ -187,13 +187,15 @@ PSIM_H = \ IDECODE_H = \ idecode.h \ - idecode_expression.h \ + idecode_expression.h e500_expression.h altivec_expression.h \ idecode_branch.h \ idecode_fields.h \ icache.h REGISTERS_H = \ registers.h \ + e500_registers.h \ + altivec_registers.h \ spreg.h CPU_H = \ @@ -459,8 +461,7 @@ tmp-dgen: dgen ppc-spr-table $(srcdir)/../../move-if-change $(SHELL) $(srcdir)/../../move-if-change tmp-spreg.c spreg.c touch tmp-dgen - -tmp-igen: igen ppc-instructions $(IGEN_OPCODE_RULES) $(srcdir)/../../move-if-change tmp-ld-decode tmp-ld-cache tmp-ld-insn tmp-filter +tmp-igen: igen $(srcdir)/ppc-instructions $(srcdir)/altivec.igen $(srcdir)/e500.igen $(IGEN_OPCODE_RULES) $(srcdir)/../../move-if-change tmp-ld-decode tmp-ld-cache tmp-ld-insn tmp-filter ./igen $(IGEN_FLAGS) \ -o $(srcdir)/$(IGEN_OPCODE_RULES) \ -I $(srcdir) -i $(srcdir)/ppc-instructions \ diff --git a/sim/ppc/altivec.igen b/sim/ppc/altivec.igen new file mode 100644 index 0000000..9f10b26 --- /dev/null +++ b/sim/ppc/altivec.igen @@ -0,0 +1,2356 @@ +# Altivec instruction set, for PSIM, the PowerPC simulator. + +# Copyright 2003 Free Software Foundation, Inc. + +# Contributed by Red Hat Inc; developed under contract from Motorola. +# Written by matthew green <mrg@redhat.com>. + +# This file is part of GDB. + +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 2 of the License, or +# (at your option) any later version. + +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. + +# You should have received a copy of the GNU General Public License +# along with this program; if not, write to the Free Software +# Foundation, Inc., 59 Temple Place - Suite 330, +# Boston, MA 02111-1307, USA. */ + + +# +# Motorola AltiVec instructions. +# + +:cache:av:::VS:VS: +:cache:av::vreg *:vS:VS:(cpu_registers(processor)->altivec.vr + VS) +:cache:av::unsigned32:VS_BITMASK:VS:(1 << VS) +:cache:av:::VA:VA: +:cache:av::vreg *:vA:VA:(cpu_registers(processor)->altivec.vr + VA) +:cache:av::unsigned32:VA_BITMASK:VA:(1 << VA) +:cache:av:::VB:VB: +:cache:av::vreg *:vB:VB:(cpu_registers(processor)->altivec.vr + VB) +:cache:av::unsigned32:VB_BITMASK:VB:(1 << VB) +:cache:av:::VC:VC: +:cache:av::vreg *:vC:VC:(cpu_registers(processor)->altivec.vr + VC) +:cache:av::unsigned32:VC_BITMASK:VC:(1 << VC) + +# Flags for model.h +::model-macro::: + #define PPC_INSN_INT_VR(OUT_MASK, IN_MASK, OUT_VMASK, IN_VMASK) \ + do { \ + if (CURRENT_MODEL_ISSUE > 0) \ + ppc_insn_int_vr(MY_INDEX, cpu_model(processor), OUT_MASK, IN_MASK, OUT_VMASK, IN_VMASK); \ + } while (0) + + #define PPC_INSN_VR(OUT_VMASK, IN_VMASK) \ + do { \ + if (CURRENT_MODEL_ISSUE > 0) \ + ppc_insn_vr(MY_INDEX, cpu_model(processor), OUT_VMASK, IN_VMASK); \ + } while (0) + + #define PPC_INSN_VR_CR(OUT_VMASK, IN_VMASK, CR_MASK) \ + do { \ + if (CURRENT_MODEL_ISSUE > 0) \ + ppc_insn_vr_cr(MY_INDEX, cpu_model(processor), OUT_VMASK, IN_VMASK, CR_MASK); \ + } while (0) + + #define PPC_INSN_VR_VSCR(OUT_VMASK, IN_VMASK) \ + do { \ + if (CURRENT_MODEL_ISSUE > 0) \ + ppc_insn_vr_vscr(MY_INDEX, cpu_model(processor), OUT_VMASK, IN_VMASK); \ + } while (0) + + #define PPC_INSN_FROM_VSCR(VR_MASK) \ + do { \ + if (CURRENT_MODEL_ISSUE > 0) \ + ppc_insn_from_vscr(MY_INDEX, cpu_model(processor), VR_MASK); \ + } while (0) + + #define PPC_INSN_TO_VSCR(VR_MASK) \ + do { \ + if (CURRENT_MODEL_ISSUE > 0) \ + ppc_insn_to_vscr(MY_INDEX, cpu_model(processor), VR_MASK); \ + } while (0) + +# Trace waiting for AltiVec registers to become available +void::model-static::model_trace_altivec_busy_p:model_data *model_ptr, unsigned32 vr_busy + int i; + if (vr_busy) { + vr_busy &= model_ptr->vr_busy; + for(i = 0; i < 32; i++) { + if (((1 << i) & vr_busy) != 0) { + TRACE(trace_model, ("Waiting for register v%d.\n", i)); + } + } + } + if (model_ptr->vscr_busy) + TRACE(trace_model, ("Waiting for VSCR\n")); + +# Trace making AltiVec registers busy +void::model-static::model_trace_altivec_make_busy:model_data *model_ptr, unsigned32 vr_mask, unsigned32 cr_mask + int i; + if (vr_mask) { + for(i = 0; i < 32; i++) { + if (((1 << i) & vr_mask) != 0) { + TRACE(trace_model, ("Register v%d is now busy.\n", i)); + } + } + } + if (cr_mask) { + for(i = 0; i < 8; i++) { + if (((1 << i) & cr_mask) != 0) { + TRACE(trace_model, ("Register cr%d is now busy.\n", i)); + } + } + } + +# Schedule an AltiVec instruction that takes integer input registers and produces output registers +void::model-function::ppc_insn_int_vr:itable_index index, model_data *model_ptr, const unsigned32 out_mask, const unsigned32 in_mask, const unsigned32 out_vmask, const unsigned32 in_vmask + const unsigned32 int_mask = out_mask | in_mask; + const unsigned32 vr_mask = out_vmask | in_vmask; + model_busy *busy_ptr; + + if ((model_ptr->int_busy & int_mask) != 0 || (model_ptr->vr_busy & vr_mask)) { + model_new_cycle(model_ptr); /* don't count first dependency as a stall */ + + while ((model_ptr->int_busy & int_mask) != 0 || (model_ptr->vr_busy & vr_mask)) { + if (WITH_TRACE && ppc_trace[trace_model]) { + model_trace_busy_p(model_ptr, int_mask, 0, 0, PPC_NO_SPR); + model_trace_altivec_busy_p(model_ptr, vr_mask); + } + + model_ptr->nr_stalls_data++; + model_new_cycle(model_ptr); + } + } + + busy_ptr = model_wait_for_unit(index, model_ptr, &model_ptr->timing[index]); + model_ptr->int_busy |= out_mask; + busy_ptr->int_busy |= out_mask; + model_ptr->vr_busy |= out_vmask; + busy_ptr->vr_busy |= out_vmask; + + if (out_mask) + busy_ptr->nr_writebacks = (PPC_ONE_BIT_SET_P(out_vmask)) ? 1 : 2; + + if (out_vmask) + busy_ptr->nr_writebacks += (PPC_ONE_BIT_SET_P(out_vmask)) ? 1 : 2; + + if (WITH_TRACE && ppc_trace[trace_model]) { + model_trace_make_busy(model_ptr, out_mask, 0, 0); + model_trace_altivec_make_busy(model_ptr, vr_mask, 0); + } + +# Schedule an AltiVec instruction that takes vector input registers and produces vector output registers +void::model-function::ppc_insn_vr:itable_index index, model_data *model_ptr, const unsigned32 out_vmask, const unsigned32 in_vmask + const unsigned32 vr_mask = out_vmask | in_vmask; + model_busy *busy_ptr; + + if (model_ptr->vr_busy & vr_mask) { + model_new_cycle(model_ptr); /* don't count first dependency as a stall */ + + while (model_ptr->vr_busy & vr_mask) { + if (WITH_TRACE && ppc_trace[trace_model]) { + model_trace_altivec_busy_p(model_ptr, vr_mask); + } + + model_ptr->nr_stalls_data++; + model_new_cycle(model_ptr); + } + } + + busy_ptr = model_wait_for_unit(index, model_ptr, &model_ptr->timing[index]); + model_ptr->vr_busy |= out_vmask; + busy_ptr->vr_busy |= out_vmask; + if (out_vmask) + busy_ptr->nr_writebacks = (PPC_ONE_BIT_SET_P(out_vmask)) ? 1 : 2; + + if (WITH_TRACE && ppc_trace[trace_model]) { + model_trace_altivec_make_busy(model_ptr, vr_mask, 0); + } + +# Schedule an AltiVec instruction that takes vector input registers and produces vector output registers, touches CR +void::model-function::ppc_insn_vr_cr:itable_index index, model_data *model_ptr, const unsigned32 out_vmask, const unsigned32 in_vmask, const unsigned32 cr_mask + const unsigned32 vr_mask = out_vmask | in_vmask; + model_busy *busy_ptr; + + if ((model_ptr->vr_busy & vr_mask) || (model_ptr->cr_fpscr_busy & cr_mask)) { + model_new_cycle(model_ptr); /* don't count first dependency as a stall */ + + while ((model_ptr->vr_busy & vr_mask) || (model_ptr->cr_fpscr_busy & cr_mask)) { + if (WITH_TRACE && ppc_trace[trace_model]) { + model_trace_busy_p(model_ptr, 0, 0, cr_mask, PPC_NO_SPR); + model_trace_altivec_busy_p(model_ptr, vr_mask); + } + + model_ptr->nr_stalls_data++; + model_new_cycle(model_ptr); + } + } + + busy_ptr = model_wait_for_unit(index, model_ptr, &model_ptr->timing[index]); + model_ptr->cr_fpscr_busy |= cr_mask; + busy_ptr->cr_fpscr_busy |= cr_mask; + model_ptr->vr_busy |= out_vmask; + busy_ptr->vr_busy |= out_vmask; + + if (out_vmask) + busy_ptr->nr_writebacks = (PPC_ONE_BIT_SET_P(out_vmask)) ? 1 : 2; + + if (cr_mask) + busy_ptr->nr_writebacks++; + + if (WITH_TRACE && ppc_trace[trace_model]) + model_trace_altivec_make_busy(model_ptr, vr_mask, cr_mask); + +# Schedule an AltiVec instruction that takes vector input registers and produces vector output registers, touches VSCR +void::model-function::ppc_insn_vr_vscr:itable_index index, model_data *model_ptr, const unsigned32 out_vmask, const unsigned32 in_vmask + const unsigned32 vr_mask = out_vmask | in_vmask; + model_busy *busy_ptr; + + if ((model_ptr->vr_busy & vr_mask) != 0 || model_ptr->vscr_busy != 0) { + model_new_cycle(model_ptr); /* don't count first dependency as a stall */ + + while ((model_ptr->vr_busy & vr_mask) != 0 || model_ptr->vscr_busy != 0) { + if (WITH_TRACE && ppc_trace[trace_model]) + model_trace_altivec_busy_p(model_ptr, vr_mask); + + model_ptr->nr_stalls_data++; + model_new_cycle(model_ptr); + } + } + + busy_ptr = model_wait_for_unit(index, model_ptr, &model_ptr->timing[index]); + model_ptr->vr_busy |= out_vmask; + busy_ptr->vr_busy |= out_vmask; + model_ptr->vscr_busy = 1; + busy_ptr->vscr_busy = 1; + + if (out_vmask) + busy_ptr->nr_writebacks = 1 + (PPC_ONE_BIT_SET_P(out_vmask)) ? 1 : 2; + + if (WITH_TRACE && ppc_trace[trace_model]) + model_trace_altivec_make_busy(model_ptr, vr_mask, 0); + +# Schedule an MFVSCR instruction that VSCR input register and produces an AltiVec output register +void::model-function::ppc_insn_from_vscr:itable_index index, model_data *model_ptr, const unsigned32 vr_mask + model_busy *busy_ptr; + + while ((model_ptr->vr_busy & vr_mask) != 0 || model_ptr->vscr_busy != 0) { + if (WITH_TRACE && ppc_trace[trace_model]) + model_trace_altivec_busy_p(model_ptr, vr_mask); + + model_ptr->nr_stalls_data++; + model_new_cycle(model_ptr); + } + busy_ptr = model_wait_for_unit(index, model_ptr, &model_ptr->timing[index]); + model_ptr->cr_fpscr_busy |= vr_mask; + busy_ptr->cr_fpscr_busy |= vr_mask; + + if (vr_mask) + busy_ptr->nr_writebacks = 1; + + model_ptr->vr_busy |= vr_mask; + if (WITH_TRACE && ppc_trace[trace_model]) + model_trace_altivec_make_busy(model_ptr, vr_mask, 0); + +# Schedule an MTVSCR instruction that one AltiVec input register and produces a vscr output register +void::model-function::ppc_insn_to_vscr:itable_index index, model_data *model_ptr, const unsigned32 vr_mask + model_busy *busy_ptr; + + while ((model_ptr->vr_busy & vr_mask) != 0 || model_ptr->vscr_busy != 0) { + if (WITH_TRACE && ppc_trace[trace_model]) + model_trace_altivec_busy_p(model_ptr, vr_mask); + + model_ptr->nr_stalls_data++; + model_new_cycle(model_ptr); + } + busy_ptr = model_wait_for_unit(index, model_ptr, &model_ptr->timing[index]); + busy_ptr ->vscr_busy = 1; + model_ptr->vscr_busy = 1; + busy_ptr->nr_writebacks = 1; + + TRACE(trace_model,("Making VSCR busy.\n")); + +# The follow are AltiVec saturate operations + +signed8::model-function::altivec_signed_saturate_8:signed16 val, int *sat + signed8 rv; + if (val > 127) { + rv = 127; + *sat = 1; + } else if (val < -128) { + rv = -128; + *sat = 1; + } else { + rv = val; + *sat = 0; + } + return rv; + +signed16::model-function::altivec_signed_saturate_16:signed32 val, int *sat + signed16 rv; + if (val > 32767) { + rv = 32767; + *sat = 1; + } else if (val < -32768) { + rv = -32768; + *sat = 1; + } else { + rv = val; + *sat = 0; + } + return rv; + +signed32::model-function::altivec_signed_saturate_32:signed64 val, int *sat + signed32 rv; + if (val > 2147483647) { + rv = 2147483647; + *sat = 1; + } else if (val < -2147483648LL) { + rv = -2147483648LL; + *sat = 1; + } else { + rv = val; + *sat = 0; + } + return rv; + +unsigned8::model-function::altivec_unsigned_saturate_8:signed16 val, int *sat + unsigned8 rv; + if (val > 255) { + rv = 255; + *sat = 1; + } else if (val < 0) { + rv = 0; + *sat = 1; + } else { + rv = val; + *sat = 0; + } + return rv; + +unsigned16::model-function::altivec_unsigned_saturate_16:signed32 val, int *sat + unsigned16 rv; + if (val > 65535) { + rv = 65535; + *sat = 1; + } else if (val < 0) { + rv = 0; + *sat = 1; + } else { + rv = val; + *sat = 0; + } + return rv; + +unsigned32::model-function::altivec_unsigned_saturate_32:signed64 val, int *sat + unsigned32 rv; + if (val > 4294967295LL) { + rv = 4294967295LL; + *sat = 1; + } else if (val < 0) { + rv = 0; + *sat = 1; + } else { + rv = val; + *sat = 0; + } + return rv; + +# +# Load instructions, 6-14 ... 6-22. +# + +0.31,6.VS,11.RA,16.RB,21.7,31.0:X:av:lvebx %VD, %RA, %RB:Load Vector Element Byte Indexed + unsigned_word b; + unsigned_word EA; + unsigned_word eb; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + eb = EA & 0xf; + (*vS).b[AV_BINDEX(eb)] = MEM(unsigned, EA, 1); + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +0.31,6.VS,11.RA,16.RB,21.39,31.0:X:av:lvehx %VD, %RA, %RB:Load Vector Element Half Word Indexed + unsigned_word b; + unsigned_word EA; + unsigned_word eb; + if (RA_is_0) b = 0; + else b = *rA; + EA = (b + *rB) & ~1; + eb = EA & 0xf; + (*vS).h[AV_HINDEX(eb/2)] = MEM(unsigned, EA, 2); + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +0.31,6.VS,11.RA,16.RB,21.71,31.0:X:av:lvewx %VD, %RA, %RB:Load Vector Element Word Indexed + unsigned_word b; + unsigned_word EA; + unsigned_word eb; + if (RA_is_0) b = 0; + else b = *rA; + EA = (b + *rB) & ~3; + eb = EA & 0xf; + (*vS).w[eb/4] = MEM(unsigned, EA, 4); + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + + +0.31,6.VS,11.RA,16.RB,21.6,31.0:X:av:lvsl %VD, %RA, %RB:Load Vector for Shift Left + unsigned_word b; + unsigned_word addr; + int i, j; + if (RA_is_0) b = 0; + else b = *rA; + addr = b + *rB; + j = addr & 0xf; + for (i = 0; i < 16; i++) + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + (*vS).b[AV_BINDEX(i)] = j++; + else + (*vS).b[AV_BINDEX(15 - i)] = j++; + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +0.31,6.VS,11.RA,16.RB,21.38,31.0:X:av:lvsr %VD, %RA, %RB:Load Vector for Shift Right + unsigned_word b; + unsigned_word addr; + int i, j; + if (RA_is_0) b = 0; + else b = *rA; + addr = b + *rB; + j = 0x10 - (addr & 0xf); + for (i = 0; i < 16; i++) + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + (*vS).b[AV_BINDEX(i)] = j++; + else + (*vS).b[AV_BINDEX(15 - i)] = j++; + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + + +0.31,6.VS,11.RA,16.RB,21.103,31.0:X:av:lvx %VD, %RA, %RB:Load Vector Indexed + unsigned_word b; + unsigned_word EA; + if (RA_is_0) b = 0; + else b = *rA; + EA = (b + *rB) & ~0xf; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) { + (*vS).w[0] = MEM(unsigned, EA + 0, 4); + (*vS).w[1] = MEM(unsigned, EA + 4, 4); + (*vS).w[2] = MEM(unsigned, EA + 8, 4); + (*vS).w[3] = MEM(unsigned, EA + 12, 4); + } else { + (*vS).w[0] = MEM(unsigned, EA + 12, 4); + (*vS).w[1] = MEM(unsigned, EA + 8, 4); + (*vS).w[2] = MEM(unsigned, EA + 4, 4); + (*vS).w[3] = MEM(unsigned, EA + 0, 4); + } + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +0.31,6.VS,11.RA,16.RB,21.359,31.0:X:av:lvxl %VD, %RA, %RB:Load Vector Indexed LRU + unsigned_word b; + unsigned_word EA; + if (RA_is_0) b = 0; + else b = *rA; + EA = (b + *rB) & ~0xf; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) { + (*vS).w[0] = MEM(unsigned, EA + 0, 4); + (*vS).w[1] = MEM(unsigned, EA + 4, 4); + (*vS).w[2] = MEM(unsigned, EA + 8, 4); + (*vS).w[3] = MEM(unsigned, EA + 12, 4); + } else { + (*vS).w[0] = MEM(unsigned, EA + 12, 4); + (*vS).w[1] = MEM(unsigned, EA + 8, 4); + (*vS).w[2] = MEM(unsigned, EA + 4, 4); + (*vS).w[3] = MEM(unsigned, EA + 0, 4); + } + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +# +# Move to/from VSCR instructions, 6-23 & 6-24. +# + +0.4,6.VS,11.0,16.0,21.1540:VX:av:mfvscr %VS:Move from Vector Status and Control Register + (*vS).w[0] = 0; + (*vS).w[1] = 0; + (*vS).w[2] = 0; + (*vS).w[3] = VSCR; + PPC_INSN_FROM_VSCR(VS_BITMASK); + +0.4,6.0,11.0,16.VB,21.1604:VX:av:mtvscr %VB:Move to Vector Status and Control Register + VSCR = (*vB).w[3]; + PPC_INSN_TO_VSCR(VB_BITMASK); + +# +# Store instructions, 6-25 ... 6-29. +# + +0.31,6.VS,11.RA,16.RB,21.135,31.0:X:av:stvebx %VD, %RA, %RB:Store Vector Element Byte Indexed + unsigned_word b; + unsigned_word EA; + unsigned_word eb; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + eb = EA & 0xf; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + STORE(EA, 1, (*vS).b[eb]); + else + STORE(EA, 1, (*vS).b[15-eb]); + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +0.31,6.VS,11.RA,16.RB,21.167,31.0:X:av:stvehx %VD, %RA, %RB:Store Vector Element Half Word Indexed + unsigned_word b; + unsigned_word EA; + unsigned_word eb; + if (RA_is_0) b = 0; + else b = *rA; + EA = (b + *rB) & ~1; + eb = EA & 0xf; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + STORE(EA, 2, (*vS).h[eb/2]); + else + STORE(EA, 2, (*vS).h[7-eb]); + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +0.31,6.VS,11.RA,16.RB,21.199,31.0:X:av:stvewx %VD, %RA, %RB:Store Vector Element Word Indexed + unsigned_word b; + unsigned_word EA; + unsigned_word eb; + if (RA_is_0) b = 0; + else b = *rA; + EA = (b + *rB) & ~3; + eb = EA & 0xf; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + STORE(EA, 4, (*vS).w[eb/4]); + else + STORE(EA, 4, (*vS).w[3-(eb/4)]); + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +0.31,6.VS,11.RA,16.RB,21.231,31.0:X:av:stvx %VD, %RA, %RB:Store Vector Indexed + unsigned_word b; + unsigned_word EA; + if (RA_is_0) b = 0; + else b = *rA; + EA = (b + *rB) & ~0xf; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) { + STORE(EA + 0, 4, (*vS).w[0]); + STORE(EA + 4, 4, (*vS).w[1]); + STORE(EA + 8, 4, (*vS).w[2]); + STORE(EA + 12, 4, (*vS).w[3]); + } else { + STORE(EA + 12, 4, (*vS).w[0]); + STORE(EA + 8, 4, (*vS).w[1]); + STORE(EA + 4, 4, (*vS).w[2]); + STORE(EA + 0, 4, (*vS).w[3]); + } + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +0.31,6.VS,11.RA,16.RB,21.487,31.0:X:av:stvxl %VD, %RA, %RB:Store Vector Indexed LRU + unsigned_word b; + unsigned_word EA; + if (RA_is_0) b = 0; + else b = *rA; + EA = (b + *rB) & ~0xf; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) { + STORE(EA + 0, 4, (*vS).w[0]); + STORE(EA + 4, 4, (*vS).w[1]); + STORE(EA + 8, 4, (*vS).w[2]); + STORE(EA + 12, 4, (*vS).w[3]); + } else { + STORE(EA + 12, 4, (*vS).w[0]); + STORE(EA + 8, 4, (*vS).w[1]); + STORE(EA + 4, 4, (*vS).w[2]); + STORE(EA + 0, 4, (*vS).w[3]); + } + PPC_INSN_INT_VR(0, RA_BITMASK | RB_BITMASK, VS_BITMASK, 0); + +# +# Vector Add instructions, 6-30 ... 6-40. +# + +0.4,6.VS,11.VA,16.VB,21.384:VX:av:vaddcuw %VD, %VA, %VB:Vector Add Carryout Unsigned Word + unsigned64 temp; + int i; + for (i = 0; i < 4; i++) { + temp = (unsigned64)(*vA).w[i] + (unsigned64)(*vB).w[i]; + (*vS).w[i] = temp >> 32; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.10:VX:av:vaddfp %VD, %VA, %VB:Vector Add Floating Point + int i; + unsigned32 f; + sim_fpu a, b, d; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_add (&d, &a, &b); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.768:VX:av:vaddsbs %VD, %VA, %VB:Vector Add Signed Byte Saturate + int i, sat, tempsat; + signed16 temp; + for (i = 0; i < 16; i++) { + temp = (signed16)(signed8)(*vA).b[i] + (signed16)(signed8)(*vB).b[i]; + (*vS).b[i] = altivec_signed_saturate_8(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.832:VX:av:vaddshs %VD, %VA, %VB:Vector Add Signed Half Word Saturate + int i, sat, tempsat; + signed32 temp, a, b; + for (i = 0; i < 8; i++) { + a = (signed32)(signed16)(*vA).h[i]; + b = (signed32)(signed16)(*vB).h[i]; + temp = a + b; + (*vS).h[i] = altivec_signed_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.896:VX:av:vaddsws %VD, %VA, %VB:Vector Add Signed Word Saturate + int i, sat, tempsat; + signed64 temp; + for (i = 0; i < 4; i++) { + temp = (signed64)(signed32)(*vA).w[i] + (signed64)(signed32)(*vB).w[i]; + (*vS).w[i] = altivec_signed_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.0:VX:av:vaddubm %VD, %VA, %VB:Vector Add Unsigned Byte Modulo + int i; + for (i = 0; i < 16; i++) + (*vS).b[i] = ((*vA).b[i] + (*vB).b[i]) & 0xff; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.512:VX:av:vaddubs %VD, %VA, %VB:Vector Add Unsigned Byte Saturate + int i, sat, tempsat; + signed16 temp; + sat = 0; + for (i = 0; i < 16; i++) { + temp = (signed16)(unsigned8)(*vA).b[i] + (signed16)(unsigned8)(*vB).b[i]; + (*vS).b[i] = altivec_unsigned_saturate_8(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.64:VX:av:vadduhm %VD, %VA, %VB:Vector Add Unsigned Half Word Modulo + int i; + for (i = 0; i < 8; i++) + (*vS).h[i] = ((*vA).h[i] + (*vB).h[i]) & 0xffff; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.576:VX:av:vadduhs %VD, %VA, %VB:Vector Add Unsigned Half Word Saturate + int i, sat, tempsat; + signed32 temp; + for (i = 0; i < 8; i++) { + temp = (signed32)(unsigned16)(*vA).h[i] + (signed32)(unsigned16)(*vB).h[i]; + (*vS).h[i] = altivec_unsigned_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.128:VX:av:vadduwm %VD, %VA, %VB:Vector Add Unsigned Word Modulo + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = (*vA).w[i] + (*vB).w[i]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.640:VX:av:vadduws %VD, %VA, %VB:Vector Add Unsigned Word Saturate + int i, sat, tempsat; + signed64 temp; + for (i = 0; i < 4; i++) { + temp = (signed64)(unsigned32)(*vA).w[i] + (signed64)(unsigned32)(*vB).w[i]; + (*vS).w[i] = altivec_unsigned_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +# +# Vector AND instructions, 6-41, 6-42 +# + +0.4,6.VS,11.VA,16.VB,21.1028:VX:av:vand %VD, %VA, %VB:Vector Logical AND + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = (*vA).w[i] & (*vB).w[i]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1092:VX:av:vandc %VD, %VA, %VB:Vector Logical AND with Compliment + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = (*vA).w[i] & ~((*vB).w[i]); + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Average instructions, 6-43, 6-48 +# + +0.4,6.VS,11.VA,16.VB,21.1282:VX:av:vavgsb %VD, %VA, %VB:Vector Average Signed Byte + int i; + signed16 temp, a, b; + for (i = 0; i < 16; i++) { + a = (signed16)(signed8)(*vA).b[i]; + b = (signed16)(signed8)(*vB).b[i]; + temp = a + b + 1; + (*vS).b[i] = (temp >> 1) & 0xff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1346:VX:av:vavgsh %VD, %VA, %VB:Vector Average Signed Half Word + int i; + signed32 temp, a, b; + for (i = 0; i < 8; i++) { + a = (signed32)(signed16)(*vA).h[i]; + b = (signed32)(signed16)(*vB).h[i]; + temp = a + b + 1; + (*vS).h[i] = (temp >> 1) & 0xffff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1410:VX:av:vavgsw %VD, %VA, %VB:Vector Average Signed Word + int i; + signed64 temp, a, b; + for (i = 0; i < 4; i++) { + a = (signed64)(signed32)(*vA).w[i]; + b = (signed64)(signed32)(*vB).w[i]; + temp = a + b + 1; + (*vS).w[i] = (temp >> 1) & 0xffffffff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1026:VX:av:vavgub %VD, %VA, %VB:Vector Average Unsigned Byte + int i; + unsigned16 temp, a, b; + for (i = 0; i < 16; i++) { + a = (*vA).b[i]; + b = (*vB).b[i]; + temp = a + b + 1; + (*vS).b[i] = (temp >> 1) & 0xff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1090:VX:av:vavguh %VD, %VA, %VB:Vector Average Unsigned Half Word + int i; + unsigned32 temp, a, b; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + temp = a + b + 1; + (*vS).h[i] = (temp >> 1) & 0xffff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1154:VX:av:vavguw %VD, %VA, %VB:Vector Average Unsigned Word + int i; + unsigned64 temp, a, b; + for (i = 0; i < 4; i++) { + a = (*vA).w[i]; + b = (*vB).w[i]; + temp = a + b + 1; + (*vS).w[i] = (temp >> 1) & 0xffffffff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +# +# Vector Fixed Point Convert instructions, 6-49, 6-50 +# + +0.4,6.VS,11.UIMM,16.VB,21.842:VX:av:vcfsx %VD, %VB, %UIMM:Vector Convert From Signed Fixed-Point Word + int i; + unsigned32 f; + sim_fpu b, div, d; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_u32to (&div, 2 << UIMM, sim_fpu_round_default); + sim_fpu_div (&d, &b, &div); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.UIMM,16.VB,21.778:VX:av:vcfux %VD, %VA, %UIMM:Vector Convert From Unsigned Fixed-Point Word + int i; + unsigned32 f; + sim_fpu b, d, div; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_u32to (&div, 2 << UIMM, sim_fpu_round_default); + sim_fpu_div (&d, &b, &div); + sim_fpu_to32u (&f, &d, sim_fpu_round_default); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +# +# Vector Compare instructions, 6-51 ... 6-64 +# + +0.4,6.VS,11.VA,16.VB,21.RC,22.966:VXR:av:vcmpbpfpx %VD, %VA, %VB:Vector Compare Bounds Floating Point + int i, le, ge; + sim_fpu a, b, d; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + le = sim_fpu_is_le(&a, &b); + ge = sim_fpu_is_ge(&a, &b); + (*vS).w[i] = (le ? 0 : 1 << 31) | (ge ? 0 : 1 << 30); + } + if (RC) + ALTIVEC_SET_CR6(vS, 0); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.198:VXR:av:vcmpeqfpx %VD, %VA, %VB:Vector Compare Equal-to-Floating Point + int i; + sim_fpu a, b; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + if (sim_fpu_is_eq(&a, &b)) + (*vS).w[i] = 0xffffffff; + else + (*vS).w[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.6:VXR:av:vcmpequbx %VD, %VA, %VB:Vector Compare Equal-to Unsigned Byte + int i; + for (i = 0; i < 16; i++) + if ((*vA).b[i] == (*vB).b[i]) + (*vS).b[i] = 0xff; + else + (*vS).b[i] = 0; + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.70:VXR:av:vcmpequhx %VD, %VA, %VB:Vector Compare Equal-to Unsigned Half Word + int i; + for (i = 0; i < 8; i++) + if ((*vA).h[i] == (*vB).h[i]) + (*vS).h[i] = 0xffff; + else + (*vS).h[i] = 0; + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.134:VXR:av:vcmpequwx %VD, %VA, %VB:Vector Compare Equal-to Unsigned Word + int i; + for (i = 0; i < 4; i++) + if ((*vA).w[i] == (*vB).w[i]) + (*vS).w[i] = 0xffffffff; + else + (*vS).w[i] = 0; + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.454:VXR:av:vcmpgefpx %VD, %VA, %VB:Vector Compare Greater-Than-or-Equal-to Floating Point + int i; + sim_fpu a, b; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + if (sim_fpu_is_ge(&a, &b)) + (*vS).w[i] = 0xffffffff; + else + (*vS).w[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.710:VXR:av:vcmpgtfpx %VD, %VA, %VB:Vector Compare Greater-Than Floating Point + int i; + sim_fpu a, b; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + if (sim_fpu_is_gt(&a, &b)) + (*vS).w[i] = 0xffffffff; + else + (*vS).w[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.774:VXR:av:vcmpgtsbx %VD, %VA, %VB:Vector Compare Greater-Than Signed Byte + int i; + signed8 a, b; + for (i = 0; i < 16; i++) { + a = (*vA).b[i]; + b = (*vB).b[i]; + if (a > b) + (*vS).b[i] = 0xff; + else + (*vS).b[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.838:VXR:av:vcmpgtshx %VD, %VA, %VB:Vector Compare Greater-Than Signed Half Word + int i; + signed16 a, b; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + if (a > b) + (*vS).h[i] = 0xffff; + else + (*vS).h[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.902:VXR:av:vcmpgtswx %VD, %VA, %VB:Vector Compare Greater-Than Signed Word + int i; + signed32 a, b; + for (i = 0; i < 4; i++) { + a = (*vA).w[i]; + b = (*vB).w[i]; + if (a > b) + (*vS).w[i] = 0xffffffff; + else + (*vS).w[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.518:VXR:av:vcmpgtubx %VD, %VA, %VB:Vector Compare Greater-Than Unsigned Byte + int i; + unsigned8 a, b; + for (i = 0; i < 16; i++) { + a = (*vA).b[i]; + b = (*vB).b[i]; + if (a > b) + (*vS).b[i] = 0xff; + else + (*vS).b[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.582:VXR:av:vcmpgtuhx %VD, %VA, %VB:Vector Compare Greater-Than Unsigned Half Word + int i; + unsigned16 a, b; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + if (a > b) + (*vS).h[i] = 0xffff; + else + (*vS).h[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +0.4,6.VS,11.VA,16.VB,21.RC,22.646:VXR:av:vcmpgtuwx %VD, %VA, %VB:Vector Compare Greater-Than Unsigned Word + int i; + unsigned32 a, b; + for (i = 0; i < 4; i++) { + a = (*vA).w[i]; + b = (*vB).w[i]; + if (a > b) + (*vS).w[i] = 0xffffffff; + else + (*vS).w[i] = 0; + } + if (RC) + ALTIVEC_SET_CR6(vS, 1); + PPC_INSN_VR_CR(VS_BITMASK, VA_BITMASK | VB_BITMASK, RC ? 0x000000f0 : 0); + +# +# Vector Convert instructions, 6-65, 6-66. +# + +0.4,6.VS,11.UIMM,16.VB,21.970:VX:av:vctsxs %VD, %VB, %UIMM:Vector Convert to Signed Fixed-Point Word Saturate + int i, sat, tempsat; + signed64 temp; + sim_fpu a, b, m; + sat = 0; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_u32to (&m, 2 << UIMM, sim_fpu_round_default); + sim_fpu_mul (&a, &b, &m); + sim_fpu_to64i (&temp, &a, sim_fpu_round_default); + (*vS).w[i] = altivec_signed_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.UIMM,16.VB,21.906:VX:av:vctuxs %VD, %VB, %UIMM:Vector Convert to Unsigned Fixed-Point Word Saturate + int i, sat, tempsat; + signed64 temp; + sim_fpu a, b, m; + sat = 0; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_u32to (&m, 2 << UIMM, sim_fpu_round_default); + sim_fpu_mul (&a, &b, &m); + sim_fpu_to64u (&temp, &a, sim_fpu_round_default); + (*vS).w[i] = altivec_unsigned_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VB_BITMASK); + +# +# Vector Estimate instructions, 6-67 ... 6-70. +# + +0.4,6.VS,11.0,16.VB,21.394:VX:av:vexptefp %VD, %VB:Vector 2 Raised to the Exponent Estimate Floating Point + int i; + unsigned32 f; + signed32 bi; + sim_fpu b, d; + for (i = 0; i < 4; i++) { + /*HACK!*/ + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_to32i (&bi, &b, sim_fpu_round_default); + bi = 2 ^ bi; + sim_fpu_32to (&d, bi); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR_VSCR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.458:VX:av:vlogefp %VD, %VB:Vector Log2 Estimate Floating Point + int i; + unsigned32 c, u, f; + sim_fpu b, cfpu, d; + for (i = 0; i < 4; i++) { + /*HACK!*/ + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_to32u (&u, &b, sim_fpu_round_default); + for (c = 0; (u /= 2) > 1; c++) + ; + sim_fpu_32to (&cfpu, c); + sim_fpu_add (&d, &b, &cfpu); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR_VSCR(VS_BITMASK, VB_BITMASK); + +# +# Vector Multiply Add instruction, 6-71 +# + +0.4,6.VS,11.VA,16.VB,21.VC,26.46:VAX:av:vmaddfp %VD, %VA, %VB, %VC:Vector Multiply Add Floating Point + int i; + unsigned32 f; + sim_fpu a, b, c, d, e; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_32to (&c, (*vC).w[i]); + sim_fpu_mul (&e, &a, &c); + sim_fpu_add (&d, &e, &b); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + + +# +# Vector Maximum instructions, 6-72 ... 6-78. +# + +0.4,6.VS,11.VA,16.VB,21.1034:VX:av:vmaxfp %VD, %VA, %VB:Vector Maximum Floating Point + int i; + unsigned32 f; + sim_fpu a, b, d; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_max (&d, &a, &b); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.258:VX:av:vmaxsb %VD, %VA, %VB:Vector Maximum Signed Byte + int i; + signed8 a, b; + for (i = 0; i < 16; i++) { + a = (*vA).b[i]; + b = (*vB).b[i]; + if (a > b) + (*vS).b[i] = a; + else + (*vS).b[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.322:VX:av:vmaxsh %VD, %VA, %VB:Vector Maximum Signed Half Word + int i; + signed16 a, b; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + if (a > b) + (*vS).h[i] = a; + else + (*vS).h[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.386:VX:av:vmaxsw %VD, %VA, %VB:Vector Maximum Signed Word + int i; + signed32 a, b; + for (i = 0; i < 4; i++) { + a = (*vA).w[i]; + b = (*vB).w[i]; + if (a > b) + (*vS).w[i] = a; + else + (*vS).w[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.2:VX:av:vmaxub %VD, %VA, %VB:Vector Maximum Unsigned Byte + int i; + unsigned8 a, b; + for (i = 0; i < 16; i++) { + a = (*vA).b[i]; + b = (*vB).b[i]; + if (a > b) + (*vS).b[i] = a; + else + (*vS).b[i] = b; + }; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.66:VX:av:vmaxus %VD, %VA, %VB:Vector Maximum Unsigned Half Word + int i; + unsigned16 a, b; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + if (a > b) + (*vS).h[i] = a; + else + (*vS).h[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.130:VX:av:vmaxuw %VD, %VA, %VB:Vector Maximum Unsigned Word + int i; + unsigned32 a, b; + for (i = 0; i < 4; i++) { + a = (*vA).w[i]; + b = (*vB).w[i]; + if (a > b) + (*vS).w[i] = a; + else + (*vS).w[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Multiple High instructions, 6-79, 6-80. +# + +0.4,6.VS,11.VA,16.VB,21.VC,26.32:VAX:av:vmhaddshs %VD, %VA, %VB, %VC:Vector Multiple High and Add Signed Half Word Saturate + int i, sat, tempsat; + signed16 a, b; + signed32 prod, temp, c; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + c = (signed32)(signed16)(*vC).h[i]; + prod = (signed32)a * (signed32)b; + temp = (prod >> 15) + c; + (*vS).h[i] = altivec_signed_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.VC,26.33:VAX:av:vmhraddshs %VD, %VA, %VB, %VC:Vector Multiple High Round and Add Signed Half Word Saturate + int i, sat, tempsat; + signed16 a, b; + signed32 prod, temp, c; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + c = (signed32)(signed16)(*vC).h[i]; + prod = (signed32)a * (signed32)b; + prod += 0x4000; + temp = (prod >> 15) + c; + (*vS).h[i] = altivec_signed_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + + +# +# Vector Minimum instructions, 6-81 ... 6-87 +# + +0.4,6.VS,11.VA,16.VB,21.1098:VX:av:vminfp %VD, %VA, %VB:Vector Minimum Floating Point + int i; + unsigned32 f; + sim_fpu a, b, d; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_min (&d, &a, &b); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.770:VX:av:vminsb %VD, %VA, %VB:Vector Minimum Signed Byte + int i; + signed8 a, b; + for (i = 0; i < 16; i++) { + a = (*vA).b[i]; + b = (*vB).b[i]; + if (a < b) + (*vS).b[i] = a; + else + (*vS).b[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.834:VX:av:vminsh %VD, %VA, %VB:Vector Minimum Signed Half Word + int i; + signed16 a, b; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + if (a < b) + (*vS).h[i] = a; + else + (*vS).h[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.898:VX:av:vminsw %VD, %VA, %VB:Vector Minimum Signed Word + int i; + signed32 a, b; + for (i = 0; i < 4; i++) { + a = (*vA).w[i]; + b = (*vB).w[i]; + if (a < b) + (*vS).w[i] = a; + else + (*vS).w[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.514:VX:av:vminub %VD, %VA, %VB:Vector Minimum Unsigned Byte + int i; + unsigned8 a, b; + for (i = 0; i < 16; i++) { + a = (*vA).b[i]; + b = (*vB).b[i]; + if (a < b) + (*vS).b[i] = a; + else + (*vS).b[i] = b; + }; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.578:VX:av:vminuh %VD, %VA, %VB:Vector Minimum Unsigned Half Word + int i; + unsigned16 a, b; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + if (a < b) + (*vS).h[i] = a; + else + (*vS).h[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.642:VX:av:vminuw %VD, %VA, %VB:Vector Minimum Unsigned Word + int i; + unsigned32 a, b; + for (i = 0; i < 4; i++) { + a = (*vA).w[i]; + b = (*vB).w[i]; + if (a < b) + (*vS).w[i] = a; + else + (*vS).w[i] = b; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Multiply Low instruction, 6-88 +# + +0.4,6.VS,11.VA,16.VB,21.VC,26.34:VAX:av:vmladduhm %VD, %VA, %VB, %VC:Vector Multiply Low and Add Unsigned Half Word Modulo + int i; + unsigned16 a, b, c; + unsigned32 prod; + for (i = 0; i < 8; i++) { + a = (*vA).h[i]; + b = (*vB).h[i]; + c = (*vC).h[i]; + prod = (unsigned32)a * (unsigned32)b; + (*vS).h[i] = (prod + c) & 0xffff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + + +# +# Vector Merge instructions, 6-89 ... 6-94 +# + +0.4,6.VS,11.VA,16.VB,21.12:VX:av:vmrghb %VD, %VA, %VB:Vector Merge High Byte + int i; + for (i = 0; i < 16; i += 2) { + (*vS).b[AV_BINDEX(i)] = (*vA).b[AV_BINDEX(i/2)]; + (*vS).b[AV_BINDEX(i+1)] = (*vB).b[AV_BINDEX(i/2)]; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.76:VX:av:vmrghh %VD, %VA, %VB:Vector Merge High Half Word + int i; + for (i = 0; i < 8; i += 2) { + (*vS).h[AV_HINDEX(i)] = (*vA).h[AV_HINDEX(i/2)]; + (*vS).h[AV_HINDEX(i+1)] = (*vB).h[AV_HINDEX(i/2)]; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.140:VX:av:vmrghw %VD, %VA, %VB:Vector Merge High Word + int i; + for (i = 0; i < 4; i += 2) { + (*vS).w[i] = (*vA).w[i/2]; + (*vS).w[i+1] = (*vB).w[i/2]; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.268:VX:av:vmrglb %VD, %VA, %VB:Vector Merge Low Byte + int i; + for (i = 0; i < 16; i += 2) { + (*vS).b[AV_BINDEX(i)] = (*vA).b[AV_BINDEX((i/2) + 8)]; + (*vS).b[AV_BINDEX(i+1)] = (*vB).b[AV_BINDEX((i/2) + 8)]; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.332:VX:av:vmrglh %VD, %VA, %VB:Vector Merge Low Half Word + int i; + for (i = 0; i < 8; i += 2) { + (*vS).h[AV_HINDEX(i)] = (*vA).h[AV_HINDEX((i/2) + 4)]; + (*vS).h[AV_HINDEX(i+1)] = (*vB).h[AV_HINDEX((i/2) + 4)]; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.396:VX:av:vmrglw %VD, %VA, %VB:Vector Merge Low Word + int i; + for (i = 0; i < 4; i += 2) { + (*vS).w[i] = (*vA).w[(i/2) + 2]; + (*vS).w[i+1] = (*vB).w[(i/2) + 2]; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Multiply Sum instructions, 6-95 ... 6-100 +# + +0.4,6.VS,11.VA,16.VB,21.VC,26.37:VAX:av:vmsummbm %VD, %VA, %VB, %VC:Vector Multiply Sum Mixed-Sign Byte Modulo + int i, j; + signed32 temp; + signed16 prod, a; + unsigned16 b; + for (i = 0; i < 4; i++) { + temp = (*vC).w[i]; + for (j = 0; j < 4; j++) { + a = (signed16)(signed8)(*vA).b[i*4+j]; + b = (*vB).b[i*4+j]; + prod = a * b; + temp += (signed32)prod; + } + (*vS).w[i] = temp; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.VC,26.40:VAX:av:vmsumshm %VD, %VA, %VB, %VC:Vector Multiply Sum Signed Half Word Modulo + int i, j; + signed32 temp, prod, a, b; + for (i = 0; i < 4; i++) { + temp = (*vC).w[i]; + for (j = 0; j < 2; j++) { + a = (signed32)(signed16)(*vA).h[i*2+j]; + b = (signed32)(signed16)(*vB).h[i*2+j]; + prod = a * b; + temp += prod; + } + (*vS).w[i] = temp; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.VC,26.41:VAX:av:vmsumshs %VD, %VA, %VB, %VC:Vector Multiply Sum Signed Half Word Saturate + int i, j, sat, tempsat; + signed64 temp; + signed32 prod, a, b; + sat = 0; + for (i = 0; i < 4; i++) { + temp = (signed64)(signed32)(*vC).w[i]; + for (j = 0; j < 2; j++) { + a = (signed32)(signed16)(*vA).h[i*2+j]; + b = (signed32)(signed16)(*vB).h[i*2+j]; + prod = a * b; + temp += (signed64)prod; + } + (*vS).w[i] = altivec_signed_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.VC,26.36:VAX:av:vmsumubm %VD, %VA, %VB, %VC:Vector Multiply Sum Unsigned Byte Modulo + int i, j; + unsigned32 temp; + unsigned16 prod, a, b; + for (i = 0; i < 4; i++) { + temp = (*vC).w[i]; + for (j = 0; j < 4; j++) { + a = (*vA).b[i*4+j]; + b = (*vB).b[i*4+j]; + prod = a * b; + temp += prod; + } + (*vS).w[i] = temp; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.VC,26.38:VAX:av:vmsumuhm %VD, %VA, %VB, %VC:Vector Multiply Sum Unsigned Half Word Modulo + int i, j; + unsigned32 temp, prod, a, b; + for (i = 0; i < 4; i++) { + temp = (*vC).w[i]; + for (j = 0; j < 2; j++) { + a = (*vA).h[i*2+j]; + b = (*vB).h[i*2+j]; + prod = a * b; + temp += prod; + } + (*vS).w[i] = temp; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.VC,26.39:VAX:av:vmsumuhs %VD, %VA, %VB, %VC:Vector Multiply Sum Unsigned Half Word Saturate + int i, j, sat, tempsat; + unsigned32 temp, prod, a, b; + sat = 0; + for (i = 0; i < 4; i++) { + temp = (*vC).w[i]; + for (j = 0; j < 2; j++) { + a = (*vA).h[i*2+j]; + b = (*vB).h[i*2+j]; + prod = a * b; + temp += prod; + } + (*vS).w[i] = altivec_unsigned_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + + +# +# Vector Multiply Even/Odd instructions, 6-101 ... 6-108 +# + +0.4,6.VS,11.VA,16.VB,21.776:VX:av:vmulesb %VD, %VA, %VB:Vector Multiply Even Signed Byte + int i; + signed8 a, b; + signed16 prod; + for (i = 0; i < 8; i++) { + a = (*vA).b[AV_BINDEX(i*2)]; + b = (*vB).b[AV_BINDEX(i*2)]; + prod = a * b; + (*vS).h[AV_HINDEX(i)] = prod; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.840:VX:av:vmulesh %VD, %VA, %VB:Vector Multiply Even Signed Half Word + int i; + signed16 a, b; + signed32 prod; + for (i = 0; i < 4; i++) { + a = (*vA).h[AV_HINDEX(i*2)]; + b = (*vB).h[AV_HINDEX(i*2)]; + prod = a * b; + (*vS).w[i] = prod; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.520:VX:av:vmuleub %VD, %VA, %VB:Vector Multiply Even Unsigned Byte + int i; + unsigned8 a, b; + unsigned16 prod; + for (i = 0; i < 8; i++) { + a = (*vA).b[AV_BINDEX(i*2)]; + b = (*vB).b[AV_BINDEX(i*2)]; + prod = a * b; + (*vS).h[AV_HINDEX(i)] = prod; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.584:VX:av:vmuleuh %VD, %VA, %VB:Vector Multiply Even Unsigned Half Word + int i; + unsigned16 a, b; + unsigned32 prod; + for (i = 0; i < 4; i++) { + a = (*vA).h[AV_HINDEX(i*2)]; + b = (*vB).h[AV_HINDEX(i*2)]; + prod = a * b; + (*vS).w[i] = prod; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.264:VX:av:vmulosb %VD, %VA, %VB:Vector Multiply Odd Signed Byte + int i; + signed8 a, b; + signed16 prod; + for (i = 0; i < 8; i++) { + a = (*vA).b[AV_BINDEX((i*2)+1)]; + b = (*vB).b[AV_BINDEX((i*2)+1)]; + prod = a * b; + (*vS).h[AV_HINDEX(i)] = prod; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.328:VX:av:vmulosh %VD, %VA, %VB:Vector Multiply Odd Signed Half Word + int i; + signed16 a, b; + signed32 prod; + for (i = 0; i < 4; i++) { + a = (*vA).h[AV_HINDEX((i*2)+1)]; + b = (*vB).h[AV_HINDEX((i*2)+1)]; + prod = a * b; + (*vS).w[i] = prod; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.8:VX:av:vmuloub %VD, %VA, %VB:Vector Multiply Odd Unsigned Byte + int i; + unsigned8 a, b; + unsigned16 prod; + for (i = 0; i < 8; i++) { + a = (*vA).b[AV_BINDEX((i*2)+1)]; + b = (*vB).b[AV_BINDEX((i*2)+1)]; + prod = a * b; + (*vS).h[AV_HINDEX(i)] = prod; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.72:VX:av:vmulouh %VD, %VA, %VB:Vector Multiply Odd Unsigned Half Word + int i; + unsigned16 a, b; + unsigned32 prod; + for (i = 0; i < 4; i++) { + a = (*vA).h[AV_HINDEX((i*2)+1)]; + b = (*vB).h[AV_HINDEX((i*2)+1)]; + prod = a * b; + (*vS).w[i] = prod; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Negative Multiply-Subtract instruction, 6-109 +# + +0.4,6.VS,11.VA,16.VB,21.VC,26.47:VX:av:vnmsubfp %VD, %VA, %VB, %VC:Vector Negative Multiply-Subtract Floating Point + int i; + unsigned32 f; + sim_fpu a, b, c, d, i1, i2; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_32to (&c, (*vC).w[i]); + sim_fpu_mul (&i1, &a, &c); + sim_fpu_sub (&i2, &i1, &b); + sim_fpu_neg (&d, &i2); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + + +# +# Vector Logical OR instructions, 6-110, 6-111, 6-177 +# + +0.4,6.VS,11.VA,16.VB,21.1284:VX:av:vnor %VD, %VA, %VB:Vector Logical NOR + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = ~((*vA).w[i] | (*vB).w[i]); + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1156:VX:av:vor %VD, %VA, %VB:Vector Logical OR + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = (*vA).w[i] | (*vB).w[i]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1220:VX:av:vxor %VD, %VA, %VB:Vector Logical XOR + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = (*vA).w[i] ^ (*vB).w[i]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Permute instruction, 6-112 +# + +0.4,6.VS,11.VA,16.VB,21.VC,26.43:VX:av:vperm %VD, %VA, %VB, %VC:Vector Permute + int i, who; + for (i = 0; i < 16; i++) { + who = (*vC).b[AV_BINDEX(i)] & 0x1f; + if (who & 0x10) + (*vS).b[AV_BINDEX(i)] = (*vB).b[AV_BINDEX(who & 0xf)]; + else + (*vS).b[AV_BINDEX(i)] = (*vA).b[AV_BINDEX(who & 0xf)]; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + + +# +# Vector Pack instructions, 6-113 ... 6-121 +# + +0.4,6.VS,11.VA,16.VB,21.782:VX:av:vpkpx %VD, %VA, %VB:Vector Pack Pixel32 + int i; + for (i = 0; i < 4; i++) { + (*vS).h[AV_HINDEX(i+4)] = ((((*vB).w[i]) >> 9) & 0xfc00) + | ((((*vB).w[i]) >> 6) & 0x03e0) + | ((((*vB).w[i]) >> 3) & 0x001f); + (*vS).h[AV_HINDEX(i)] = ((((*vA).w[i]) >> 9) & 0xfc00) + | ((((*vA).w[i]) >> 6) & 0x03e0) + | ((((*vA).w[i]) >> 3) & 0x001f); + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.398:VX:av:vpkshss %VD, %VA, %VB:Vector Pack Signed Half Word Signed Saturate + int i, sat, tempsat; + signed16 temp; + sat = 0; + for (i = 0; i < 16; i++) { + if (i < 8) + temp = (*vA).h[AV_HINDEX(i)]; + else + temp = (*vB).h[AV_HINDEX(i-8)]; + (*vS).b[AV_BINDEX(i)] = altivec_signed_saturate_8(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.270:VX:av:vpkshus %VD, %VA, %VB:Vector Pack Signed Half Word Unsigned Saturate + int i, sat, tempsat; + signed16 temp; + sat = 0; + for (i = 0; i < 16; i++) { + if (i < 8) + temp = (*vA).h[AV_HINDEX(i)]; + else + temp = (*vB).h[AV_HINDEX(i-8)]; + (*vS).b[AV_BINDEX(i)] = altivec_unsigned_saturate_8(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.462:VX:av:vpkswss %VD, %VA, %VB:Vector Pack Signed Word Signed Saturate + int i, sat, tempsat; + signed32 temp; + sat = 0; + for (i = 0; i < 8; i++) { + if (i < 4) + temp = (*vA).w[i]; + else + temp = (*vB).w[i-4]; + (*vS).h[AV_HINDEX(i)] = altivec_signed_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.334:VX:av:vpkswus %VD, %VA, %VB:Vector Pack Signed Word Unsigned Saturate + int i, sat, tempsat; + signed32 temp; + sat = 0; + for (i = 0; i < 8; i++) { + if (i < 4) + temp = (*vA).w[i]; + else + temp = (*vB).w[i-4]; + (*vS).h[AV_HINDEX(i)] = altivec_unsigned_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.14:VX:av:vpkuhum %VD, %VA, %VB:Vector Pack Unsigned Half Word Unsigned Modulo + int i; + for (i = 0; i < 16; i++) + if (i < 8) + (*vS).b[AV_BINDEX(i)] = (*vA).h[AV_HINDEX(i)]; + else + (*vS).b[AV_BINDEX(i)] = (*vB).h[AV_HINDEX(i-8)]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.142:VX:av:vpkuhus %VD, %VA, %VB:Vector Pack Unsigned Half Word Unsigned Saturate + int i, sat, tempsat; + signed16 temp; + sat = 0; + for (i = 0; i < 16; i++) { + if (i < 8) + temp = (*vA).h[AV_HINDEX(i)]; + else + temp = (*vB).h[AV_HINDEX(i-8)]; + /* force positive in signed16, ok as we'll toss the bit away anyway */ + temp &= ~0x8000; + (*vS).b[AV_BINDEX(i)] = altivec_unsigned_saturate_8(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.78:VX:av:vpkuwum %VD, %VA, %VB:Vector Pack Unsigned Word Unsigned Modulo + int i; + for (i = 0; i < 8; i++) + if (i < 8) + (*vS).h[AV_HINDEX(i)] = (*vA).w[i]; + else + (*vS).h[AV_HINDEX(i)] = (*vB).w[i-8]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.206:VX:av:vpkuwus %VD, %VA, %VB:Vector Pack Unsigned Word Unsigned Saturate + int i, sat, tempsat; + signed32 temp; + sat = 0; + for (i = 0; i < 8; i++) { + if (i < 4) + temp = (*vA).w[i]; + else + temp = (*vB).w[i-4]; + /* force positive in signed32, ok as we'll toss the bit away anyway */ + temp &= ~0x80000000; + (*vS).h[AV_HINDEX(i)] = altivec_unsigned_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Reciprocal instructions, 6-122, 6-123, 6-131 +# + +0.4,6.VS,11.0,16.VB,21.266:VX:av:vrefp %VD, %VB:Vector Reciprocal Estimate Floating Point + int i; + unsigned32 f; + sim_fpu op, d; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&op, (*vB).w[i]); + sim_fpu_div (&d, &sim_fpu_one, &op); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.330:VX:av:vrsqrtefp %VD, %VB:Vector Reciprocal Square Root Estimate Floating Point + int i; + unsigned32 f; + sim_fpu op, i1, one, d; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&op, (*vB).w[i]); + sim_fpu_sqrt (&i1, &op); + sim_fpu_div (&d, &sim_fpu_one, &i1); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + + +# +# Vector Round instructions, 6-124 ... 6-127 +# + +0.4,6.VS,11.0,16.VB,21.714:VX:av:vrfim %VD, %VB:Vector Round to Floating-Point Integer towards Minus Infinity + int i; + unsigned32 f; + sim_fpu op; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&op, (*vB).w[i]); + sim_fpu_round_32(&op, sim_fpu_round_down, sim_fpu_denorm_default); + sim_fpu_to32 (&f, &op); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.522:VX:av:vrfin %VD, %VB:Vector Round to Floating-Point Integer Nearest + int i; + unsigned32 f; + sim_fpu op; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&op, (*vB).w[i]); + sim_fpu_round_32(&op, sim_fpu_round_near, sim_fpu_denorm_default); + sim_fpu_to32 (&f, &op); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.650:VX:av:vrfip %VD, %VB:Vector Round to Floating-Point Integer towards Plus Infinity + int i; + unsigned32 f; + sim_fpu op; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&op, (*vB).w[i]); + sim_fpu_round_32(&op, sim_fpu_round_up, sim_fpu_denorm_default); + sim_fpu_to32 (&f, &op); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.586:VX:av:vrfiz %VD, %VB:Vector Round to Floating-Point Integer towards Zero + int i; + unsigned32 f; + sim_fpu op; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&op, (*vB).w[i]); + sim_fpu_round_32(&op, sim_fpu_round_zero, sim_fpu_denorm_default); + sim_fpu_to32 (&f, &op); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + + +# +# Vector Rotate Left instructions, 6-128 ... 6-130 +# + +0.4,6.VS,11.VA,16.VB,21.4:VX:av:vrlb %VD, %VA, %VB:Vector Rotate Left Integer Byte + int i; + unsigned16 temp; + for (i = 0; i < 16; i++) { + temp = (unsigned16)(*vA).b[i] << (((*vB).b[i]) & 7); + (*vS).b[i] = (temp & 0xff) | ((temp >> 8) & 0xff); + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.68:VX:av:vrlh %VD, %VA, %VB:Vector Rotate Left Integer Half Word + int i; + unsigned32 temp; + for (i = 0; i < 8; i++) { + temp = (unsigned32)(*vA).h[i] << (((*vB).h[i]) & 0xf); + (*vS).h[i] = (temp & 0xffff) | ((temp >> 16) & 0xffff); + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.132:VX:av:vrlw %VD, %VA, %VB:Vector Rotate Left Integer Word + int i; + unsigned64 temp; + for (i = 0; i < 4; i++) { + temp = (unsigned64)(*vA).w[i] << (((*vB).w[i]) & 0x1f); + (*vS).w[i] = (temp & 0xffffffff) | ((temp >> 32) & 0xffffffff); + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Conditional Select instruction, 6-133 +# + +0.4,6.VS,11.VA,16.VB,21.VC,26.42:VAX:av:vsel %VD, %VA, %VB, %VC:Vector Conditional Select + int i; + unsigned32 c; + for (i = 0; i < 4; i++) { + c = (*vC).w[i]; + (*vS).w[i] = ((*vB).w[i] & c) | ((*vA).w[i] & ~c); + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK | VC_BITMASK); + +# +# Vector Shift Left instructions, 6-134 ... 6-139 +# + +0.4,6.VS,11.VA,16.VB,21.452:VX:av:vsl %VD, %VA, %VB:Vector Shift Left + int sh, i, j, carry, new_carry; + sh = (*vB).b[0] & 7; /* don't bother checking everything */ + carry = 0; + for (j = 3; j >= 0; j--) { + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + i = j; + else + i = (j + 2) % 4; + new_carry = (*vA).w[i] >> (32 - sh); + (*vS).w[i] = ((*vA).w[i] << sh) | carry; + carry = new_carry; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.260:VX:av:vslb %VD, %VA, %VB:Vector Shift Left Integer Byte + int i, sh; + for (i = 0; i < 16; i++) { + sh = ((*vB).b[i]) & 7; + (*vS).b[i] = (*vA).b[i] << sh; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.0,22.SH,26.44:VX:av:vsldol %VD, %VA, %VB:Vector Shift Left Double by Octet Immediate + int i, j; + for (j = 0, i = SH; i < 16; i++) + (*vS).b[j++] = (*vA).b[i]; + for (i = 0; i < SH; i++) + (*vS).b[j++] = (*vB).b[i]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.324:VX:av:vslh %VD, %VA, %VB:Vector Shift Left Half Word + int i, sh; + for (i = 0; i < 8; i++) { + sh = ((*vB).h[i]) & 0xf; + (*vS).h[i] = (*vA).h[i] << sh; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1036:VX:av:vslo %VD, %VA, %VB:Vector Shift Left by Octet + int i, sh; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + sh = ((*vB).b[AV_BINDEX(15)] >> 3) & 0xf; + else + sh = ((*vB).b[AV_BINDEX(0)] >> 3) & 0xf; + for (i = 0; i < 16; i++) { + if (15 - i > sh) + (*vS).b[AV_BINDEX(i)] = (*vA).b[AV_BINDEX(i + sh)]; + else + (*vS).b[AV_BINDEX(i)] = 0; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.388:VX:av:vslw %VD, %VA, %VB:Vector Shift Left Integer Word + int i, sh; + for (i = 0; i < 4; i++) { + sh = ((*vB).w[i]) & 0x1f; + (*vS).w[i] = (*vA).w[i] << sh; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Splat instructions, 6-140 ... 6-145 +# + +0.4,6.VS,11.UIMM,16.VB,21.524:VX:av:vspltb %VD, %VB, %UIMM:Vector Splat Byte + int i; + unsigned8 b; + b = (*vB).b[AV_BINDEX(UIMM & 0xf)]; + for (i = 0; i < 16; i++) + (*vS).b[i] = b; + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.UIMM,16.VB,21.588:VX:av:vsplth %VD, %VB, %UIMM:Vector Splat Half Word + int i; + unsigned16 h; + h = (*vB).h[AV_HINDEX(UIMM & 0x7)]; + for (i = 0; i < 8; i++) + (*vS).h[i] = h; + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.SIMM,16.0,21.780:VX:av:vspltisb %VD, %SIMM:Vector Splat Immediate Signed Byte + int i; + signed8 b = SIMM; + /* manual 5-bit signed extension */ + if (b & 0x10) + b -= 0x20; + for (i = 0; i < 16; i++) + (*vS).b[i] = b; + PPC_INSN_VR(VS_BITMASK, 0); + +0.4,6.VS,11.SIMM,16.0,21.844:VX:av:vspltish %VD, %SIMM:Vector Splat Immediate Signed Half Word + int i; + signed16 h = SIMM; + /* manual 5-bit signed extension */ + if (h & 0x10) + h -= 0x20; + for (i = 0; i < 8; i++) + (*vS).h[i] = h; + PPC_INSN_VR(VS_BITMASK, 0); + +0.4,6.VS,11.SIMM,16.0,21.908:VX:av:vspltisw %VD, %SIMM:Vector Splat Immediate Signed Word + int i; + signed32 w = SIMM; + /* manual 5-bit signed extension */ + if (w & 0x10) + w -= 0x20; + for (i = 0; i < 4; i++) + (*vS).w[i] = w; + PPC_INSN_VR(VS_BITMASK, 0); + +0.4,6.VS,11.UIMM,16.VB,21.652:VX:av:vspltw %VD, %VB, %UIMM:Vector Splat Word + int i; + unsigned32 w; + w = (*vB).w[UIMM & 0x3]; + for (i = 0; i < 4; i++) + (*vS).w[i] = w; + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + + +# +# Vector Shift Right instructions, 6-146 ... 6-154 +# + +0.4,6.VS,11.VA,16.VB,21.708:VX:av:vsr %VD, %VA, %VB:Vector Shift Right + int sh, i, j, carry, new_carry; + sh = (*vB).b[0] & 7; /* don't bother checking everything */ + carry = 0; + for (j = 0; j < 4; j++) { + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + i = j; + else + i = (j + 2) % 4; + new_carry = (*vA).w[i] << (32 - sh); + (*vS).w[i] = ((*vA).w[i] >> sh) | carry; + carry = new_carry; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.772:VX:av:vsrab %VD, %VA, %VB:Vector Shift Right Algebraic Byte + int i, sh; + signed16 a; + for (i = 0; i < 16; i++) { + sh = ((*vB).b[i]) & 7; + a = (signed16)(signed8)(*vA).b[i]; + (*vS).b[i] = (a >> sh) & 0xff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.836:VX:av:vsrah %VD, %VA, %VB:Vector Shift Right Algebraic Half Word + int i, sh; + signed32 a; + for (i = 0; i < 8; i++) { + sh = ((*vB).h[i]) & 0xf; + a = (signed32)(signed16)(*vA).h[i]; + (*vS).h[i] = (a >> sh) & 0xffff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.900:VX:av:vsraw %VD, %VA, %VB:Vector Shift Right Algebraic Word + int i, sh; + signed64 a; + for (i = 0; i < 4; i++) { + sh = ((*vB).w[i]) & 0xf; + a = (signed64)(signed32)(*vA).w[i]; + (*vS).w[i] = (a >> sh) & 0xffffffff; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.516:VX:av:vsrb %VD, %VA, %VB:Vector Shift Right Byte + int i, sh; + for (i = 0; i < 16; i++) { + sh = ((*vB).b[i]) & 7; + (*vS).b[i] = (*vA).b[i] >> sh; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.580:VX:av:vsrh %VD, %VA, %VB:Vector Shift Right Half Word + int i, sh; + for (i = 0; i < 8; i++) { + sh = ((*vB).h[i]) & 0xf; + (*vS).h[i] = (*vA).h[i] >> sh; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1100:VX:av:vsro %VD, %VA, %VB:Vector Shift Right Octet + int i, sh; + if (CURRENT_TARGET_BYTE_ORDER == BIG_ENDIAN) + sh = ((*vB).b[AV_BINDEX(15)] >> 3) & 0xf; + else + sh = ((*vB).b[AV_BINDEX(0)] >> 3) & 0xf; + for (i = 0; i < 16; i++) { + if (i < sh) + (*vS).b[AV_BINDEX(i)] = 0; + else + (*vS).b[AV_BINDEX(i)] = (*vA).b[AV_BINDEX(i - sh)]; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.644:VX:av:vsrw %VD, %VA, %VB:Vector Shift Right Word + int i, sh; + for (i = 0; i < 4; i++) { + sh = ((*vB).w[i]) & 0x1f; + (*vS).w[i] = (*vA).w[i] >> sh; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Subtract instructions, 6-155 ... 6-165 +# + +0.4,6.VS,11.VA,16.VB,21.1408:VX:av:vsubcuw %VD, %VA, %VB:Vector Subtract Carryout Unsigned Word + int i; + signed64 temp, a, b; + for (i = 0; i < 4; i++) { + a = (signed64)(unsigned32)(*vA).w[i]; + b = (signed64)(unsigned32)(*vB).w[i]; + temp = a - b; + (*vS).w[i] = ~(temp >> 32) & 1; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.74:VX:av:vsubfp %VD, %VA, %VB:Vector Subtract Floating Point + int i; + unsigned32 f; + sim_fpu a, b, d; + for (i = 0; i < 4; i++) { + sim_fpu_32to (&a, (*vA).w[i]); + sim_fpu_32to (&b, (*vB).w[i]); + sim_fpu_sub (&d, &a, &b); + sim_fpu_to32 (&f, &d); + (*vS).w[i] = f; + } + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1792:VX:av:vsubsbs %VD, %VA, %VB:Vector Subtract Signed Byte Saturate + int i, sat, tempsat; + signed16 temp; + sat = 0; + for (i = 0; i < 16; i++) { + temp = (signed16)(signed8)(*vA).b[i] - (signed16)(signed8)(*vB).b[i]; + (*vS).b[i] = altivec_signed_saturate_8(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1856:VX:av:vsubshs %VD, %VA, %VB:Vector Subtract Signed Half Word Saturate + int i, sat, tempsat; + signed32 temp; + sat = 0; + for (i = 0; i < 8; i++) { + temp = (signed32)(signed16)(*vA).h[i] - (signed32)(signed16)(*vB).h[i]; + (*vS).h[i] = altivec_signed_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1920:VX:av:vsubsws %VD, %VA, %VB:Vector Subtract Signed Word Saturate + int i, sat, tempsat; + signed64 temp; + sat = 0; + for (i = 0; i < 4; i++) { + temp = (signed64)(signed32)(*vA).w[i] - (signed64)(signed32)(*vB).w[i]; + (*vS).w[i] = altivec_signed_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1024:VX:av:vsububm %VD, %VA, %VB:Vector Subtract Unsigned Byte Modulo + int i; + for (i = 0; i < 16; i++) + (*vS).b[i] = (*vA).b[i] - (*vB).b[i]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1536:VX:av:vsububs %VD, %VA, %VB:Vector Subtract Unsigned Byte Saturate + int i, sat, tempsat; + signed16 temp; + sat = 0; + for (i = 0; i < 16; i++) { + temp = (signed16)(unsigned8)(*vA).b[i] - (signed16)(unsigned8)(*vB).b[i]; + (*vS).b[i] = altivec_unsigned_saturate_8(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1088:VX:av:vsubuhm %VD, %VA, %VB:Vector Subtract Unsigned Half Word Modulo + int i; + for (i = 0; i < 8; i++) + (*vS).h[i] = ((*vA).h[i] - (*vB).h[i]) & 0xffff; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1600:VX:av:vsubuhs %VD, %VA, %VB:Vector Subtract Unsigned Half Word Saturate + int i, sat, tempsat; + signed32 temp; + for (i = 0; i < 8; i++) { + temp = (signed32)(unsigned16)(*vA).h[i] - (signed32)(unsigned16)(*vB).h[i]; + (*vS).h[i] = altivec_unsigned_saturate_16(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1152:VX:av:vsubuwm %VD, %VA, %VB:Vector Subtract Unsigned Word Modulo + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = (*vA).w[i] - (*vB).w[i]; + PPC_INSN_VR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1664:VX:av:vsubuws %VD, %VA, %VB:Vector Subtract Unsigned Word Saturate + int i, sat, tempsat; + signed64 temp; + for (i = 0; i < 4; i++) { + temp = (signed64)(unsigned32)(*vA).w[i] - (signed64)(unsigned32)(*vB).w[i]; + (*vS).w[i] = altivec_unsigned_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Sum instructions, 6-166 ... 6-170 +# + +0.4,6.VS,11.VA,16.VB,21.1928:VX:av:vsumsws %VD, %VA, %VB:Vector Sum Across Signed Word Saturate + int i, sat; + signed64 temp; + temp = (signed64)(signed32)(*vB).w[3]; + for (i = 0; i < 4; i++) + temp += (signed64)(signed32)(*vA).w[i]; + (*vS).w[3] = altivec_signed_saturate_32(temp, &sat); + (*vS).w[0] = (*vS).w[1] = (*vS).w[2] = 0; + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1672:VX:av:vsum2sws %VD, %VA, %VB:Vector Sum Across Partial (1/2) Signed Word Saturate + int i, j, sat, tempsat; + signed64 temp; + for (j = 0; j < 4; j += 2) { + temp = (signed64)(signed32)(*vB).w[j+1]; + temp += (signed64)(signed32)(*vA).w[j] + (signed64)(signed32)(*vA).w[j+1]; + (*vS).w[j+1] = altivec_signed_saturate_32(temp, &tempsat); + sat |= tempsat; + } + (*vS).w[0] = (*vS).w[2] = 0; + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1800:VX:av:vsum4sbs %VD, %VA, %VB:Vector Sum Across Partial (1/4) Signed Byte Saturate + int i, j, sat, tempsat; + signed64 temp; + for (j = 0; j < 4; j++) { + temp = (signed64)(signed32)(*vB).w[j]; + for (i = 0; i < 4; i++) + temp += (signed64)(signed8)(*vA).b[i+(j*4)]; + (*vS).w[j] = altivec_signed_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1608:VX:av:vsum4shs %VD, %VA, %VB:Vector Sum Across Partial (1/4) Signed Half Word Saturate + int i, j, sat, tempsat; + signed64 temp; + for (j = 0; j < 4; j++) { + temp = (signed64)(signed32)(*vB).w[j]; + for (i = 0; i < 2; i++) + temp += (signed64)(signed16)(*vA).h[i+(j*2)]; + (*vS).w[j] = altivec_signed_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + +0.4,6.VS,11.VA,16.VB,21.1544:VX:av:vsum4ubs %VD, %VA, %VB:Vector Sum Across Partial (1/4) Unsigned Byte Saturate + int i, j, sat, tempsat; + signed64 utemp; + signed64 temp; + for (j = 0; j < 4; j++) { + utemp = (signed64)(unsigned32)(*vB).w[j]; + for (i = 0; i < 4; i++) + utemp += (signed64)(unsigned16)(*vA).b[i+(j*4)]; + temp = utemp; + (*vS).w[j] = altivec_unsigned_saturate_32(temp, &tempsat); + sat |= tempsat; + } + ALTIVEC_SET_SAT(sat); + PPC_INSN_VR_VSCR(VS_BITMASK, VA_BITMASK | VB_BITMASK); + + +# +# Vector Unpack instructions, 6-171 ... 6-176 +# + +0.4,6.VS,11.0,16.VB,21.846:VX:av:vupkhpx %VD, %VB:Vector Unpack High Pixel16 + int i; + unsigned16 h; + for (i = 0; i < 4; i++) { + h = (*vB).h[AV_HINDEX(i)]; + (*vS).w[i] = ((h & 0x8000) ? 0xff000000 : 0) + | ((h & 0x7c00) << 6) + | ((h & 0x03e0) << 3) + | ((h & 0x001f)); + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.526:VX:av:vupkhsb %VD, %VB:Vector Unpack High Signed Byte + int i; + for (i = 0; i < 8; i++) + (*vS).h[AV_HINDEX(i)] = (signed16)(signed8)(*vB).b[AV_BINDEX(i)]; + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.590:VX:av:vupkhsh %VD, %VB:Vector Unpack High Signed Half Word + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = (signed32)(signed16)(*vB).h[AV_HINDEX(i)]; + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.974:VX:av:vupklpx %VD, %VB:Vector Unpack Low Pixel16 + int i; + unsigned16 h; + for (i = 0; i < 4; i++) { + h = (*vB).h[AV_HINDEX(i + 4)]; + (*vS).w[i] = ((h & 0x8000) ? 0xff000000 : 0) + | ((h & 0x7c00) << 6) + | ((h & 0x03e0) << 3) + | ((h & 0x001f)); + } + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.654:VX:av:vupklsb %VD, %VB:Vector Unpack Low Signed Byte + int i; + for (i = 0; i < 8; i++) + (*vS).h[AV_HINDEX(i)] = (signed16)(signed8)(*vB).b[AV_BINDEX(i + 8)]; + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); + +0.4,6.VS,11.0,16.VB,21.718:VX:av:vupklsh %VD, %VB:Vector Unpack Low Signed Half Word + int i; + for (i = 0; i < 4; i++) + (*vS).w[i] = (signed32)(signed16)(*vB).h[AV_HINDEX(i + 4)]; + PPC_INSN_VR(VS_BITMASK, VB_BITMASK); diff --git a/sim/ppc/altivec_expression.h b/sim/ppc/altivec_expression.h new file mode 100644 index 0000000..6cf2e76 --- /dev/null +++ b/sim/ppc/altivec_expression.h @@ -0,0 +1,50 @@ +/* Altivec expression macros, for PSIM, the PowerPC simulator. + + Copyright 2003 Free Software Foundation, Inc. + + Contributed by Red Hat Inc; developed under contract from Motorola. + Written by matthew green <mrg@redhat.com>. + + This file is part of GDB. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 2 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 59 Temple Place - Suite 330, + Boston, MA 02111-1307, USA. */ + +/* AltiVec macro helpers. */ + +#define ALTIVEC_SET_CR6(vS, checkone) \ +do { \ + if (checkone && ((*vS).w[0] == 0xffffffff && \ + (*vS).w[1] == 0xffffffff && \ + (*vS).w[2] == 0xffffffff && \ + (*vS).w[3] == 0xffffffff)) \ + CR_SET(6, 1 << 3); \ + else if ((*vS).w[0] == 0 && \ + (*vS).w[1] == 0 && \ + (*vS).w[2] == 0 && \ + (*vS).w[3] == 0) \ + CR_SET(6, 1 << 1); \ + else \ + CR_SET(6, 0); \ +} while (0) + +#define VSCR_SAT 0x00000001 +#define VSCR_NJ 0x00010000 + +#define ALTIVEC_SET_SAT(sat) \ +do { \ + if (sat) \ + VSCR |= VSCR_SAT; \ +} while (0) diff --git a/sim/ppc/altivec_registers.h b/sim/ppc/altivec_registers.h new file mode 100644 index 0000000..923f5c4 --- /dev/null +++ b/sim/ppc/altivec_registers.h @@ -0,0 +1,63 @@ +/* Altivec registers, for PSIM, the PowerPC simulator. + + Copyright 2003 Free Software Foundation, Inc. + + Contributed by Red Hat Inc; developed under contract from Motorola. + Written by matthew green <mrg@redhat.com>. + + This file is part of GDB. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 2 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 59 Temple Place - Suite 330, + Boston, MA 02111-1307, USA. */ + +/* Manage this as 4 32-bit entities, 8 16-bit entities or 16 8-bit + entities. */ +typedef union +{ + unsigned8 b[16]; + unsigned16 h[8]; + unsigned32 w[4]; +} vreg; + +typedef unsigned32 vscreg; + +struct altivec_regs { + /* AltiVec Registers */ + vreg vr[32]; + vscreg vscr; +}; + +/* AltiVec registers */ +#define VR(N) cpu_registers(processor)->altivec.vr[N] + +/* AltiVec vector status and control register */ +#define VSCR cpu_registers(processor)->altivec.vscr + +/* AltiVec endian helpers, wrong endian hosts vs targets need to be + sure to get the right bytes/halfs/words when the order matters. + Note that many AltiVec instructions do not depend on byte order and + work on N independant bits of data. This is only for the + instructions that actually move data around. */ + +#if (WITH_HOST_BYTE_ORDER == BIG_ENDIAN) +#define AV_BINDEX(x) ((x) & 15) +#define AV_HINDEX(x) ((x) & 7) +#else +static char endian_b2l_bindex[16] = { 3, 2, 1, 0, 7, 6, 5, 4, + 11, 10, 9, 8, 15, 14, 13, 12 }; +static char endian_b2l_hindex[16] = { 1, 0, 3, 2, 5, 4, 7, 6 }; +#define AV_BINDEX(x) endian_b2l_bindex[(x) & 15] +#define AV_HINDEX(x) endian_b2l_hindex[(x) & 7] +#endif diff --git a/sim/ppc/configure b/sim/ppc/configure index c6f7063..a48a831 100755 --- a/sim/ppc/configure +++ b/sim/ppc/configure @@ -163,7 +163,7 @@ ac_help="$ac_help ac_help="$ac_help --enable-sim-filter=rule Specify filter rules." ac_help="$ac_help - --enable-sim-float Specify whether to use host floating point or simulate." + --enable-sim-float Specify whether the target has hard, soft, altivec or e500 floating point." ac_help="$ac_help --enable-sim-hardware=list Specify the hardware to be included in the build." ac_help="$ac_help @@ -3036,13 +3036,21 @@ if test "${enable_sim_float+set}" = set; then case "${enableval}" in yes | hard) sim_float="-DWITH_FLOATING_POINT=HARD_FLOATING_POINT";; no | soft) sim_float="-DWITH_FLOATING_POINT=SOFT_FLOATING_POINT";; + altivec) sim_float="-DWITH_ALTIVEC" ; sim_filter="${sim_filter},av" ;; + *spe*|*simd*) sim_float="-DWITH_E500" ; sim_filter="${sim_filter},e500" ;; *) { echo "configure: error: "Unknown value $enableval passed to --enable-sim-float"" 1>&2; exit 1; }; sim_float="";; esac if test x"$silent" != x"yes" && test x"$sim_float" != x""; then echo "Setting float flags = $sim_float" 6>&1 fi else - sim_float="" + +case "${target}" in + *altivec*) sim_float="-DWITH_ALTIVEC" ; sim_filter="${sim_filter},av" ;; + *spe*|*simd*) sim_float="-DWITH_E500" ; sim_filter="${sim_filter},e500" ;; + *) sim_float="" +esac + fi @@ -3103,14 +3111,14 @@ else if test "x$cross_compiling" = "xno"; then echo $ac_n "checking whether byte ordering is bigendian""... $ac_c" 1>&6 -echo "configure:3107: checking whether byte ordering is bigendian" >&5 +echo "configure:3115: checking whether byte ordering is bigendian" >&5 if eval "test \"`echo '$''{'ac_cv_c_bigendian'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else ac_cv_c_bigendian=unknown # See if sys/param.h defines the BYTE_ORDER macro. cat > conftest.$ac_ext <<EOF -#line 3114 "configure" +#line 3122 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/param.h> @@ -3121,11 +3129,11 @@ int main() { #endif ; return 0; } EOF -if { (eval echo configure:3125: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3133: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* # It does; now see whether it defined to BIG_ENDIAN or not. cat > conftest.$ac_ext <<EOF -#line 3129 "configure" +#line 3137 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/param.h> @@ -3136,7 +3144,7 @@ int main() { #endif ; return 0; } EOF -if { (eval echo configure:3140: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3148: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_c_bigendian=yes else @@ -3156,7 +3164,7 @@ if test "$cross_compiling" = yes; then { echo "configure: error: can not run test program while cross compiling" 1>&2; exit 1; } else cat > conftest.$ac_ext <<EOF -#line 3160 "configure" +#line 3168 "configure" #include "confdefs.h" main () { /* Are we little or big endian? From Harbison&Steele. */ @@ -3169,7 +3177,7 @@ main () { exit (u.c[sizeof (long) - 1] == 1); } EOF -if { (eval echo configure:3173: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null +if { (eval echo configure:3181: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null then ac_cv_c_bigendian=no else @@ -3623,7 +3631,7 @@ else { echo "configure: error: can not run $ac_config_sub" 1>&2; exit 1; } fi echo $ac_n "checking host system type""... $ac_c" 1>&6 -echo "configure:3627: checking host system type" >&5 +echo "configure:3635: checking host system type" >&5 host_alias=$host case "$host_alias" in @@ -3644,7 +3652,7 @@ host_os=`echo $host | sed 's/^\([^-]*\)-\([^-]*\)-\(.*\)$/\3/'` echo "$ac_t""$host" 1>&6 echo $ac_n "checking target system type""... $ac_c" 1>&6 -echo "configure:3648: checking target system type" >&5 +echo "configure:3656: checking target system type" >&5 target_alias=$target case "$target_alias" in @@ -3662,7 +3670,7 @@ target_os=`echo $target | sed 's/^\([^-]*\)-\([^-]*\)-\(.*\)$/\3/'` echo "$ac_t""$target" 1>&6 echo $ac_n "checking build system type""... $ac_c" 1>&6 -echo "configure:3666: checking build system type" >&5 +echo "configure:3674: checking build system type" >&5 build_alias=$build case "$build_alias" in @@ -3709,12 +3717,12 @@ test "$program_transform_name" = "" && program_transform_name="s,x,x," echo $ac_n "checking for st_blksize in struct stat""... $ac_c" 1>&6 -echo "configure:3713: checking for st_blksize in struct stat" >&5 +echo "configure:3721: checking for st_blksize in struct stat" >&5 if eval "test \"`echo '$''{'ac_cv_struct_st_blksize'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3718 "configure" +#line 3726 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/stat.h> @@ -3722,7 +3730,7 @@ int main() { struct stat s; s.st_blksize; ; return 0; } EOF -if { (eval echo configure:3726: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3734: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_struct_st_blksize=yes else @@ -3743,12 +3751,12 @@ EOF fi echo $ac_n "checking for st_blocks in struct stat""... $ac_c" 1>&6 -echo "configure:3747: checking for st_blocks in struct stat" >&5 +echo "configure:3755: checking for st_blocks in struct stat" >&5 if eval "test \"`echo '$''{'ac_cv_struct_st_blocks'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3752 "configure" +#line 3760 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/stat.h> @@ -3756,7 +3764,7 @@ int main() { struct stat s; s.st_blocks; ; return 0; } EOF -if { (eval echo configure:3760: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3768: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_struct_st_blocks=yes else @@ -3779,12 +3787,12 @@ else fi echo $ac_n "checking for st_rdev in struct stat""... $ac_c" 1>&6 -echo "configure:3783: checking for st_rdev in struct stat" >&5 +echo "configure:3791: checking for st_rdev in struct stat" >&5 if eval "test \"`echo '$''{'ac_cv_struct_st_rdev'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3788 "configure" +#line 3796 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/stat.h> @@ -3792,7 +3800,7 @@ int main() { struct stat s; s.st_rdev; ; return 0; } EOF -if { (eval echo configure:3796: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3804: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_struct_st_rdev=yes else @@ -3813,12 +3821,12 @@ EOF fi echo $ac_n "checking whether struct tm is in sys/time.h or time.h""... $ac_c" 1>&6 -echo "configure:3817: checking whether struct tm is in sys/time.h or time.h" >&5 +echo "configure:3825: checking whether struct tm is in sys/time.h or time.h" >&5 if eval "test \"`echo '$''{'ac_cv_struct_tm'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3822 "configure" +#line 3830 "configure" #include "confdefs.h" #include <sys/types.h> #include <time.h> @@ -3826,7 +3834,7 @@ int main() { struct tm *tp; tp->tm_sec; ; return 0; } EOF -if { (eval echo configure:3830: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3838: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_struct_tm=time.h else @@ -3847,12 +3855,12 @@ EOF fi echo $ac_n "checking for tm_zone in struct tm""... $ac_c" 1>&6 -echo "configure:3851: checking for tm_zone in struct tm" >&5 +echo "configure:3859: checking for tm_zone in struct tm" >&5 if eval "test \"`echo '$''{'ac_cv_struct_tm_zone'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3856 "configure" +#line 3864 "configure" #include "confdefs.h" #include <sys/types.h> #include <$ac_cv_struct_tm> @@ -3860,7 +3868,7 @@ int main() { struct tm tm; tm.tm_zone; ; return 0; } EOF -if { (eval echo configure:3864: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3872: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_struct_tm_zone=yes else @@ -3880,12 +3888,12 @@ EOF else echo $ac_n "checking for tzname""... $ac_c" 1>&6 -echo "configure:3884: checking for tzname" >&5 +echo "configure:3892: checking for tzname" >&5 if eval "test \"`echo '$''{'ac_cv_var_tzname'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3889 "configure" +#line 3897 "configure" #include "confdefs.h" #include <time.h> #ifndef tzname /* For SGI. */ @@ -3895,7 +3903,7 @@ int main() { atoi(*tzname); ; return 0; } EOF -if { (eval echo configure:3899: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:3907: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_var_tzname=yes else @@ -3918,12 +3926,12 @@ fi echo $ac_n "checking for uid_t in sys/types.h""... $ac_c" 1>&6 -echo "configure:3922: checking for uid_t in sys/types.h" >&5 +echo "configure:3930: checking for uid_t in sys/types.h" >&5 if eval "test \"`echo '$''{'ac_cv_type_uid_t'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 3927 "configure" +#line 3935 "configure" #include "confdefs.h" #include <sys/types.h> EOF @@ -3952,7 +3960,7 @@ EOF fi echo $ac_n "checking type of array argument to getgroups""... $ac_c" 1>&6 -echo "configure:3956: checking type of array argument to getgroups" >&5 +echo "configure:3964: checking type of array argument to getgroups" >&5 if eval "test \"`echo '$''{'ac_cv_type_getgroups'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -3960,7 +3968,7 @@ else ac_cv_type_getgroups=cross else cat > conftest.$ac_ext <<EOF -#line 3964 "configure" +#line 3972 "configure" #include "confdefs.h" /* Thanks to Mike Rendell for this test. */ @@ -3985,7 +3993,7 @@ main() } EOF -if { (eval echo configure:3989: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null +if { (eval echo configure:3997: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null then ac_cv_type_getgroups=gid_t else @@ -3999,7 +4007,7 @@ fi if test $ac_cv_type_getgroups = cross; then cat > conftest.$ac_ext <<EOF -#line 4003 "configure" +#line 4011 "configure" #include "confdefs.h" #include <unistd.h> EOF @@ -4023,12 +4031,12 @@ EOF echo $ac_n "checking for mode_t""... $ac_c" 1>&6 -echo "configure:4027: checking for mode_t" >&5 +echo "configure:4035: checking for mode_t" >&5 if eval "test \"`echo '$''{'ac_cv_type_mode_t'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4032 "configure" +#line 4040 "configure" #include "confdefs.h" #include <sys/types.h> #if STDC_HEADERS @@ -4056,12 +4064,12 @@ EOF fi echo $ac_n "checking for off_t""... $ac_c" 1>&6 -echo "configure:4060: checking for off_t" >&5 +echo "configure:4068: checking for off_t" >&5 if eval "test \"`echo '$''{'ac_cv_type_off_t'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4065 "configure" +#line 4073 "configure" #include "confdefs.h" #include <sys/types.h> #if STDC_HEADERS @@ -4089,12 +4097,12 @@ EOF fi echo $ac_n "checking for pid_t""... $ac_c" 1>&6 -echo "configure:4093: checking for pid_t" >&5 +echo "configure:4101: checking for pid_t" >&5 if eval "test \"`echo '$''{'ac_cv_type_pid_t'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4098 "configure" +#line 4106 "configure" #include "confdefs.h" #include <sys/types.h> #if STDC_HEADERS @@ -4122,12 +4130,12 @@ EOF fi echo $ac_n "checking return type of signal handlers""... $ac_c" 1>&6 -echo "configure:4126: checking return type of signal handlers" >&5 +echo "configure:4134: checking return type of signal handlers" >&5 if eval "test \"`echo '$''{'ac_cv_type_signal'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4131 "configure" +#line 4139 "configure" #include "confdefs.h" #include <sys/types.h> #include <signal.h> @@ -4144,7 +4152,7 @@ int main() { int i; ; return 0; } EOF -if { (eval echo configure:4148: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4156: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_type_signal=void else @@ -4163,12 +4171,12 @@ EOF echo $ac_n "checking for size_t""... $ac_c" 1>&6 -echo "configure:4167: checking for size_t" >&5 +echo "configure:4175: checking for size_t" >&5 if eval "test \"`echo '$''{'ac_cv_type_size_t'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4172 "configure" +#line 4180 "configure" #include "confdefs.h" #include <sys/types.h> #if STDC_HEADERS @@ -4196,12 +4204,12 @@ EOF fi echo $ac_n "checking for uid_t in sys/types.h""... $ac_c" 1>&6 -echo "configure:4200: checking for uid_t in sys/types.h" >&5 +echo "configure:4208: checking for uid_t in sys/types.h" >&5 if eval "test \"`echo '$''{'ac_cv_type_uid_t'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4205 "configure" +#line 4213 "configure" #include "confdefs.h" #include <sys/types.h> EOF @@ -4233,12 +4241,12 @@ fi for ac_func in access cfgetispeed cfgetospeed cfsetispeed cfsetospeed chdir chmod chown dup dup2 fchmod fchown fcntl fstat fstatfs getdirentries getegid geteuid getgid getpid getppid getrusage gettimeofday getuid ioctl kill link lseek lstat mkdir pipe readlink rmdir setreuid setregid stat sigprocmask stat symlink tcgetattr tcsetattr tcsendbreak tcdrain tcflush tcflow tcgetpgrp tcsetpgrp time umask unlink do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:4237: checking for $ac_func" >&5 +echo "configure:4245: checking for $ac_func" >&5 if eval "test \"`echo '$''{'ac_cv_func_$ac_func'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4242 "configure" +#line 4250 "configure" #include "confdefs.h" /* System header to define __stub macros and hopefully few prototypes, which can conflict with char $ac_func(); below. */ @@ -4261,7 +4269,7 @@ $ac_func(); ; return 0; } EOF -if { (eval echo configure:4265: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4273: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -4290,17 +4298,17 @@ for ac_hdr in fcntl.h stdlib.h string.h strings.h sys/ioctl.h sys/param.h sys/re do ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:4294: checking for $ac_hdr" >&5 +echo "configure:4302: checking for $ac_hdr" >&5 if eval "test \"`echo '$''{'ac_cv_header_$ac_safe'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4299 "configure" +#line 4307 "configure" #include "confdefs.h" #include <$ac_hdr> EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:4304: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:4312: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -4331,12 +4339,12 @@ for ac_hdr in dirent.h sys/ndir.h sys/dir.h ndir.h do ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $ac_hdr that defines DIR""... $ac_c" 1>&6 -echo "configure:4335: checking for $ac_hdr that defines DIR" >&5 +echo "configure:4343: checking for $ac_hdr that defines DIR" >&5 if eval "test \"`echo '$''{'ac_cv_header_dirent_$ac_safe'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4340 "configure" +#line 4348 "configure" #include "confdefs.h" #include <sys/types.h> #include <$ac_hdr> @@ -4344,7 +4352,7 @@ int main() { DIR *dirp = 0; ; return 0; } EOF -if { (eval echo configure:4348: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4356: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* eval "ac_cv_header_dirent_$ac_safe=yes" else @@ -4369,7 +4377,7 @@ done # Two versions of opendir et al. are in -ldir and -lx on SCO Xenix. if test $ac_header_dirent = dirent.h; then echo $ac_n "checking for opendir in -ldir""... $ac_c" 1>&6 -echo "configure:4373: checking for opendir in -ldir" >&5 +echo "configure:4381: checking for opendir in -ldir" >&5 ac_lib_var=`echo dir'_'opendir | sed 'y%./+-%__p_%'` if eval "test \"`echo '$''{'ac_cv_lib_$ac_lib_var'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 @@ -4377,7 +4385,7 @@ else ac_save_LIBS="$LIBS" LIBS="-ldir $LIBS" cat > conftest.$ac_ext <<EOF -#line 4381 "configure" +#line 4389 "configure" #include "confdefs.h" /* Override any gcc2 internal prototype to avoid an error. */ /* We use char because int might match the return type of a gcc2 @@ -4388,7 +4396,7 @@ int main() { opendir() ; return 0; } EOF -if { (eval echo configure:4392: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4400: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -4410,7 +4418,7 @@ fi else echo $ac_n "checking for opendir in -lx""... $ac_c" 1>&6 -echo "configure:4414: checking for opendir in -lx" >&5 +echo "configure:4422: checking for opendir in -lx" >&5 ac_lib_var=`echo x'_'opendir | sed 'y%./+-%__p_%'` if eval "test \"`echo '$''{'ac_cv_lib_$ac_lib_var'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 @@ -4418,7 +4426,7 @@ else ac_save_LIBS="$LIBS" LIBS="-lx $LIBS" cat > conftest.$ac_ext <<EOF -#line 4422 "configure" +#line 4430 "configure" #include "confdefs.h" /* Override any gcc2 internal prototype to avoid an error. */ /* We use char because int might match the return type of a gcc2 @@ -4429,7 +4437,7 @@ int main() { opendir() ; return 0; } EOF -if { (eval echo configure:4433: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4441: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -4454,12 +4462,12 @@ fi sim_termio="" echo $ac_n "checking for struct termios""... $ac_c" 1>&6 -echo "configure:4458: checking for struct termios" >&5 +echo "configure:4466: checking for struct termios" >&5 if eval "test \"`echo '$''{'ac_cv_termios_struct'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4463 "configure" +#line 4471 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/termios.h> @@ -4472,7 +4480,7 @@ static struct termios x; x.c_cc[NCCS] = 0; ; return 0; } EOF -if { (eval echo configure:4476: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4484: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_termios_struct=yes else @@ -4491,12 +4499,12 @@ fi if test "$ac_cv_termios_struct" = "yes"; then echo $ac_n "checking for c_line field in struct termios""... $ac_c" 1>&6 -echo "configure:4495: checking for c_line field in struct termios" >&5 +echo "configure:4503: checking for c_line field in struct termios" >&5 if eval "test \"`echo '$''{'ac_cv_termios_cline'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4500 "configure" +#line 4508 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/termios.h> @@ -4504,7 +4512,7 @@ int main() { static struct termios x; x.c_line = 0; ; return 0; } EOF -if { (eval echo configure:4508: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4516: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_termios_cline=yes else @@ -4527,12 +4535,12 @@ fi if test "$ac_cv_termios_struct" != "yes"; then echo $ac_n "checking for struct termio""... $ac_c" 1>&6 -echo "configure:4531: checking for struct termio" >&5 +echo "configure:4539: checking for struct termio" >&5 if eval "test \"`echo '$''{'ac_cv_termio_struct'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4536 "configure" +#line 4544 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/termio.h> @@ -4545,7 +4553,7 @@ static struct termio x; x.c_cc[NCC] = 0; ; return 0; } EOF -if { (eval echo configure:4549: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4557: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_termio_struct=yes else @@ -4567,12 +4575,12 @@ fi if test "$ac_cv_termio_struct" = "yes"; then echo $ac_n "checking for c_line field in struct termio""... $ac_c" 1>&6 -echo "configure:4571: checking for c_line field in struct termio" >&5 +echo "configure:4579: checking for c_line field in struct termio" >&5 if eval "test \"`echo '$''{'ac_cv_termio_cline'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4576 "configure" +#line 4584 "configure" #include "confdefs.h" #include <sys/types.h> #include <sys/termio.h> @@ -4580,7 +4588,7 @@ int main() { static struct termio x; x.c_line = 0; ; return 0; } EOF -if { (eval echo configure:4584: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4592: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_termio_cline=yes else @@ -4603,7 +4611,7 @@ fi sim_devzero="" echo $ac_n "checking for /dev/zero""... $ac_c" 1>&6 -echo "configure:4607: checking for /dev/zero" >&5 +echo "configure:4615: checking for /dev/zero" >&5 if eval "test \"`echo '$''{'ac_cv_devzero'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -4611,7 +4619,7 @@ else ac_cv_devzero=no else cat > conftest.$ac_ext <<EOF -#line 4615 "configure" +#line 4623 "configure" #include "confdefs.h" #include <fcntl.h> main () { @@ -4630,7 +4638,7 @@ main () { return 0; } EOF -if { (eval echo configure:4634: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null +if { (eval echo configure:4642: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext} && (./conftest; exit) 2>/dev/null then ac_cv_devzero=yes else @@ -4652,7 +4660,7 @@ else fi echo $ac_n "checking for common simulator directory""... $ac_c" 1>&6 -echo "configure:4656: checking for common simulator directory" >&5 +echo "configure:4664: checking for common simulator directory" >&5 if test -f "${srcdir}/../common/callback.c"; then echo "$ac_t""yes" 1>&6 sim_callback="callback.o targ-map.o" @@ -4664,7 +4672,7 @@ else fi echo $ac_n "checking for common simulator directory fpu implementation""... $ac_c" 1>&6 -echo "configure:4668: checking for common simulator directory fpu implementation" >&5 +echo "configure:4676: checking for common simulator directory fpu implementation" >&5 if test -f "${srcdir}/../common/sim-fpu.c"; then echo "$ac_t""yes" 1>&6 sim_fpu_cflags="-DHAVE_COMMON_FPU -I${srcdir}/../common" @@ -4676,12 +4684,12 @@ else fi echo $ac_n "checking for Cygwin environment""... $ac_c" 1>&6 -echo "configure:4680: checking for Cygwin environment" >&5 +echo "configure:4688: checking for Cygwin environment" >&5 if eval "test \"`echo '$''{'ac_cv_cygwin'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4685 "configure" +#line 4693 "configure" #include "confdefs.h" int main() { @@ -4692,7 +4700,7 @@ int main() { return __CYGWIN__; ; return 0; } EOF -if { (eval echo configure:4696: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4704: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_cygwin=yes else @@ -4709,19 +4717,19 @@ echo "$ac_t""$ac_cv_cygwin" 1>&6 CYGWIN= test "$ac_cv_cygwin" = yes && CYGWIN=yes echo $ac_n "checking for mingw32 environment""... $ac_c" 1>&6 -echo "configure:4713: checking for mingw32 environment" >&5 +echo "configure:4721: checking for mingw32 environment" >&5 if eval "test \"`echo '$''{'ac_cv_mingw32'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else cat > conftest.$ac_ext <<EOF -#line 4718 "configure" +#line 4726 "configure" #include "confdefs.h" int main() { return __MINGW32__; ; return 0; } EOF -if { (eval echo configure:4725: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4733: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_mingw32=yes else @@ -4740,7 +4748,7 @@ test "$ac_cv_mingw32" = yes && MINGW32=yes echo $ac_n "checking for executable suffix""... $ac_c" 1>&6 -echo "configure:4744: checking for executable suffix" >&5 +echo "configure:4752: checking for executable suffix" >&5 if eval "test \"`echo '$''{'ac_cv_exeext'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else @@ -4750,7 +4758,7 @@ else rm -f conftest* echo 'int main () { return 0; }' > conftest.$ac_ext ac_cv_exeext= - if { (eval echo configure:4754: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; }; then + if { (eval echo configure:4762: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; }; then for file in conftest.*; do case $file in *.c | *.o | *.obj | *.ilk | *.pdb) ;; @@ -4779,7 +4787,7 @@ AR=${AR-ar} # Extract the first word of "ranlib", so it can be a program name with args. set dummy ranlib; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:4783: checking for $ac_word" >&5 +echo "configure:4791: checking for $ac_word" >&5 if eval "test \"`echo '$''{'ac_cv_prog_RANLIB'+set}'`\" = set"; then echo $ac_n "(cached) $ac_c" 1>&6 else diff --git a/sim/ppc/configure.in b/sim/ppc/configure.in index e130b3a..0d7a094 100644 --- a/sim/ppc/configure.in +++ b/sim/ppc/configure.in @@ -190,15 +190,23 @@ fi])dnl AC_ARG_ENABLE(sim-float, -[ --enable-sim-float Specify whether to use host floating point or simulate.], +[ --enable-sim-float Specify whether the target has hard, soft, altivec or e500 floating point.], [case "${enableval}" in yes | hard) sim_float="-DWITH_FLOATING_POINT=HARD_FLOATING_POINT";; no | soft) sim_float="-DWITH_FLOATING_POINT=SOFT_FLOATING_POINT";; + altivec) sim_float="-DWITH_ALTIVEC" ; sim_filter="${sim_filter},av" ;; + *spe*|*simd*) sim_float="-DWITH_E500" ; sim_filter="${sim_filter},e500" ;; *) AC_MSG_ERROR("Unknown value $enableval passed to --enable-sim-float"); sim_float="";; esac if test x"$silent" != x"yes" && test x"$sim_float" != x""; then echo "Setting float flags = $sim_float" 6>&1 -fi],[sim_float=""])dnl +fi],[ +case "${target}" in + *altivec*) sim_float="-DWITH_ALTIVEC" ; sim_filter="${sim_filter},av" ;; + *spe*|*simd*) sim_float="-DWITH_E500" ; sim_filter="${sim_filter},e500" ;; + *) sim_float="" +esac +])dnl AC_ARG_ENABLE(sim-hardware, diff --git a/sim/ppc/e500.igen b/sim/ppc/e500.igen new file mode 100644 index 0000000..f4ebfc7 --- /dev/null +++ b/sim/ppc/e500.igen @@ -0,0 +1,3348 @@ +# e500 core instructions, for PSIM, the PowerPC simulator. + +# Copyright 2003 Free Software Foundation, Inc. + +# Contributed by Red Hat Inc; developed under contract from Motorola. +# Written by matthew green <mrg@redhat.com>. + +# This file is part of GDB. + +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 2, or (at your option) +# any later version. + +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. + +# You should have received a copy of the GNU General Public License +# along with This program; see the file COPYING. If not, write to +# the Free Software Foundation, 59 Temple Place - Suite 330, +# Boston, MA 02111-1307, USA. + +# +# e500 Core Complex Instructions +# + +:cache:e500::signed_word *:rAh:RA:(cpu_registers(processor)->e500.gprh + RA) +:cache:e500::signed_word *:rSh:RS:(cpu_registers(processor)->e500.gprh + RS) +:cache:e500::signed_word *:rBh:RB:(cpu_registers(processor)->e500.gprh + RB) + +# Flags for model.h +::model-macro::: + #define PPC_INSN_INT_SPR(OUT_MASK, IN_MASK, SPR) \ + do { \ + if (CURRENT_MODEL_ISSUE > 0) \ + ppc_insn_int_spr(MY_INDEX, cpu_model(processor), OUT_MASK, IN_MASK, SPR); \ + } while (0) + +# Schedule an instruction that takes 2 integer register and produces a special purpose output register plus an integer output register +void::model-function::ppc_insn_int_spr:itable_index index, model_data *model_ptr, const unsigned32 out_mask, const unsigned32 in_mask, const unsigned nSPR + const unsigned32 int_mask = out_mask | in_mask; + model_busy *busy_ptr; + + while ((model_ptr->int_busy & int_mask) != 0 || model_ptr->spr_busy[nSPR] != 0) { + if (WITH_TRACE && ppc_trace[trace_model]) + model_trace_busy_p(model_ptr, int_mask, 0, 0, nSPR); + + model_ptr->nr_stalls_data++; + model_new_cycle(model_ptr); + } + + busy_ptr = model_wait_for_unit(index, model_ptr, &model_ptr->timing[index]); + busy_ptr->int_busy |= out_mask; + model_ptr->int_busy |= out_mask; + busy_ptr->spr_busy = nSPR; + model_ptr->spr_busy[nSPR] = 1; + busy_ptr->nr_writebacks = (PPC_ONE_BIT_SET_P(out_mask)) ? 3 : 2; + TRACE(trace_model,("Making register %s busy.\n", spr_name(nSPR))); + +# +# SPE Modulo Fractional Multiplication handling support +# +:function:e500::unsigned64:ev_multiply16_smf:signed16 a, signed16 b, int *sat + signed32 a32 = a, b32 = b, rv32; + rv32 = a * b; + *sat = (rv32 & (3<<30)) == (3<<30); + return (signed64)rv32 << 1; + +:function:e500::unsigned64:ev_multiply32_smf:signed32 a, signed32 b, int *sat + signed64 rv64, a64 = a, b64 = b; + rv64 = a64 * b64; + *sat = (rv64 & ((signed64)3<<62)) == ((signed64)3<<62); + /* Loses top sign bit. */ + return rv64 << 1; +# +# SPE Saturation handling support +# +:function:e500::signed32:ev_multiply16_ssf:signed16 a, signed16 b, int *sat + signed32 rv32; + if (a == 0xffff8000 && b == 0xffff8000) + { + rv32 = 0x7fffffffL; + * sat = 1; + return rv32; + } + else + { + signed32 a32 = a, b32 = b; + + rv32 = a * b; + * sat = (rv32 & (3<<30)) == (3<<30); + return (signed64)rv32 << 1; + } + +:function:e500::signed64:ev_multiply32_ssf:signed32 a, signed32 b, int *sat + signed64 rv64; + if (a == 0x80000000 && b == 0x80000000) + { + rv64 = 0x7fffffffffffffffLL; + * sat = 1; + return rv64; + } + else + { + signed64 a64 = a, b64 = b; + rv64 = a64 * b64; + *sat = (rv64 & ((signed64)3<<62)) == ((signed64)3<<62); + /* Loses top sign bit. */ + return rv64 << 1; + } + +# +# SPE FP handling support +# + +:function:e500::void:ev_check_guard:sim_fpu *a, int fg, int fx, cpu *processor + unsigned64 guard; + guard = sim_fpu_guard(a, 0); + if (guard & 1) + EV_SET_SPEFSCR_BITS(fg); + if (guard & ~1) + EV_SET_SPEFSCR_BITS(fx); + +:function:e500::void:booke_sim_fpu_32to:sim_fpu *dst, unsigned32 packed + sim_fpu_32to (dst, packed); + + /* Set normally unused fields to allow booke arithmetic. */ + if (dst->class == sim_fpu_class_infinity) + { + dst->normal_exp = 128; + dst->fraction = ((unsigned64)1 << 60); + } + else if (dst->class == sim_fpu_class_qnan + || dst->class == sim_fpu_class_snan) + { + dst->normal_exp = 128; + /* This is set, but without the implicit bit, so we have to or + in the implicit bit. */ + dst->fraction |= ((unsigned64)1 << 60); + } + +:function:e500::int:booke_sim_fpu_add:sim_fpu *d, sim_fpu *a, sim_fpu *b, int inv, int over, int under, cpu *processor + int invalid_operand, overflow_result, underflow_result; + int dest_exp; + + invalid_operand = 0; + overflow_result = 0; + underflow_result = 0; + + /* Treat NaN, Inf, and denorm like normal numbers, and signal invalid + operand if it hasn't already been done. */ + if (EV_IS_INFDENORMNAN (a)) + { + a->class = sim_fpu_class_number; + + EV_SET_SPEFSCR_BITS (inv); + invalid_operand = 1; + } + if (EV_IS_INFDENORMNAN (b)) + { + b->class = sim_fpu_class_number; + + if (! invalid_operand) + { + EV_SET_SPEFSCR_BITS (inv); + invalid_operand = 1; + } + } + + sim_fpu_add (d, a, b); + + dest_exp = booke_sim_fpu_exp (d); + /* If this is a denorm, force to zero, and signal underflow if + we haven't already indicated invalid operand. */ + if (dest_exp <= -127) + { + int sign = d->sign; + + *d = sim_fpu_zero; + d->sign = sign; + if (! invalid_operand) + { + EV_SET_SPEFSCR_BITS (under); + underflow_result = 1; + } + } + /* If this is Inf/NaN, force to pmax/nmax, and signal overflow if + we haven't already indicated invalid operand. */ + else if (dest_exp >= 127) + { + int sign = d->sign; + + *d = sim_fpu_max32; + d->sign = sign; + if (! invalid_operand) + { + EV_SET_SPEFSCR_BITS (over); + overflow_result = 1; + } + } + /* Destination sign is sign of operand with larger magnitude, or + the sign of the first operand if operands have the same + magnitude. Thus if the result is zero, we force it to have + the sign of the first operand. */ + else if (d->fraction == 0) + d->sign = a->sign; + + return invalid_operand || overflow_result || underflow_result; + +:function:e500::unsigned32:ev_fs_add:unsigned32 aa, unsigned32 bb, int inv, int over, int under, int fg, int fx, cpu *processor + sim_fpu a, b, d; + unsigned32 w; + int exception; + + booke_sim_fpu_32to (&a, aa); + booke_sim_fpu_32to (&b, bb); + + exception = booke_sim_fpu_add (&d, &a, &b, inv, over, under, + processor); + + sim_fpu_to32 (&w, &d); + if (! exception) + ev_check_guard(&d, fg, fx, processor); + return w; + +:function:e500::unsigned32:ev_fs_sub:unsigned32 aa, unsigned32 bb, int inv, int over, int under, int fg, int fx, cpu *processor + sim_fpu a, b, d; + unsigned32 w; + int exception; + + booke_sim_fpu_32to (&a, aa); + booke_sim_fpu_32to (&b, bb); + + /* Invert sign of second operand, and add. */ + b.sign = ! b.sign; + exception = booke_sim_fpu_add (&d, &a, &b, inv, over, under, + processor); + + sim_fpu_to32 (&w, &d); + if (! exception) + ev_check_guard(&d, fg, fx, processor); + return w; + +# sim_fpu_exp leaves the normal_exp field undefined for Inf and NaN. +# The booke algorithms require exp values, so we fake them here. +# fixme: It also apparently does the same for zero, but should not. +:function:e500::unsigned32:booke_sim_fpu_exp:sim_fpu *x + int y = sim_fpu_is (x); + if (y == SIM_FPU_IS_PZERO || y == SIM_FPU_IS_NZERO) + return 0; + else if (y == SIM_FPU_IS_SNAN || y == SIM_FPU_IS_QNAN + || y == SIM_FPU_IS_NINF || y == SIM_FPU_IS_PINF) + return 128; + else + return sim_fpu_exp (x); + +:function:e500::unsigned32:ev_fs_mul:unsigned32 aa, unsigned32 bb, int inv, int over, int under, int fg, int fx, cpu *processor + sim_fpu a, b, d; + unsigned32 w; + int sa, sb, ea, eb, ei; + sim_fpu_32to (&a, aa); + sim_fpu_32to (&b, bb); + sa = sim_fpu_sign(&a); + sb = sim_fpu_sign(&b); + ea = booke_sim_fpu_exp(&a); + eb = booke_sim_fpu_exp(&b); + ei = ea + eb + 127; + if (sim_fpu_is_zero (&a) || sim_fpu_is_zero (&b)) + w = 0; + else if (sa == sb) { + if (ei >= 254) { + w = EV_PMAX; + EV_SET_SPEFSCR_BITS(over); + } else if (ei < 1) { + d = sim_fpu_zero; + sim_fpu_to32 (&w, &d); + w &= 0x7fffffff; /* Clear sign bit. */ + } else { + goto normal_mul; + } + } else { + if (ei >= 254) { + w = EV_NMAX; + EV_SET_SPEFSCR_BITS(over); + } else if (ei < 1) { + d = sim_fpu_zero; + sim_fpu_to32 (&w, &d); + w |= 0x80000000; /* Set sign bit. */ + } else { + normal_mul: + if (EV_IS_INFDENORMNAN(&a) || EV_IS_INFDENORMNAN(&b)) + EV_SET_SPEFSCR_BITS(inv); + sim_fpu_mul (&d, &a, &b); + sim_fpu_to32 (&w, &d); + } + } + return w; + +:function:e500::unsigned32:ev_fs_div:unsigned32 aa, unsigned32 bb, int inv, int over, int under, int dbz, int fg, int fx, cpu *processor + sim_fpu a, b, d; + unsigned32 w; + int sa, sb, ea, eb, ei; + + sim_fpu_32to (&a, aa); + sim_fpu_32to (&b, bb); + sa = sim_fpu_sign(&a); + sb = sim_fpu_sign(&b); + ea = booke_sim_fpu_exp(&a); + eb = booke_sim_fpu_exp(&b); + ei = ea - eb + 127; + + /* Special cases to handle behaviour of e500 hardware. + cf case 107543. */ + if (sim_fpu_is_nan (&a) || sim_fpu_is_nan (&b) + || sim_fpu_is_zero (&a) || sim_fpu_is_zero (&b)) + { + if (sim_fpu_is_snan (&a) || sim_fpu_is_snan (&b)) + { + if (bb == 0x3f800000) + w = EV_PMAX; + else if (aa == 0x7fc00001) + w = 0x3fbffffe; + else + goto normal_div; + } + else + goto normal_div; + } + else if (sim_fpu_is_infinity (&a) && sim_fpu_is_infinity (&b)) + { + if (sa == sb) + sim_fpu_32to (&d, 0x3f800000); + else + sim_fpu_32to (&d, 0xbf800000); + sim_fpu_to32 (&w, &d); + } + else if (sa == sb) { + if (ei > 254) { + w = EV_PMAX; + EV_SET_SPEFSCR_BITS(over); + } else if (ei <= 1) { + d = sim_fpu_zero; + sim_fpu_to32 (&w, &d); + w &= 0x7fffffff; /* Clear sign bit. */ + } else { + goto normal_div; + } + } else { + if (ei > 254) { + w = EV_NMAX; + EV_SET_SPEFSCR_BITS(over); + } else if (ei <= 1) { + d = sim_fpu_zero; + sim_fpu_to32 (&w, &d); + w |= 0x80000000; /* Set sign bit. */ + } else { + normal_div: + if (EV_IS_INFDENORMNAN(&a) || EV_IS_INFDENORMNAN(&b)) + EV_SET_SPEFSCR_BITS(inv); + if (sim_fpu_is_zero (&b)) + { + if (sim_fpu_is_zero (&a)) + EV_SET_SPEFSCR_BITS(dbz); + else + EV_SET_SPEFSCR_BITS(inv); + w = sa ? EV_NMAX : EV_PMAX; + } + else + { + sim_fpu_div (&d, &a, &b); + sim_fpu_to32 (&w, &d); + ev_check_guard(&d, fg, fx, processor); + } + } + } + return w; + + +# +# A.2.7 Integer SPE Simple Instructions +# + +0.4,6.RS,11.RA,16.RB,21.512:X:e500:evaddw %RS,%RA,%RB:Vector Add Word + unsigned32 w1, w2; + w1 = *rBh + *rAh; + w2 = *rB + *rA; + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evaddw: *rSh = %08x; *rS = %08x; w1 = %08x w2 = %08x\n", *rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.IMM,16.RB,21.514:X:e500:evaddiw %RS,%RB,%IMM:Vector Add Immediate Word + unsigned32 w1, w2; + w1 = *rBh + IMM; + w2 = *rB + IMM; + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evaddiw: *rSh = %08x; *rS = %08x; w1 = %08x w2 = %08x\n", *rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.516:X:e500:evsubfw %RS,%RA,%RB:Vector Subtract from Word + unsigned32 w1, w2; + w1 = *rBh - *rAh; + w2 = *rB - *rA; + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evsubfw: *rSh = %08x; *rS = %08x; w1 = %08x w2 = %08x\n", *rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.IMM,16.RB,21.518:X:e500:evsubifw %RS,%RB,%IMM:Vector Subtract Immediate from Word + unsigned32 w1, w2; + w1 = *rBh - IMM; + w2 = *rB - IMM; + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evsubifw: *rSh = %08x; *rS = %08x; IMM = %d\n", *rSh, *rS, IMM); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.520:X:e500:evabs %RS,%RA:Vector Absolute Value + signed32 w1, w2; + w1 = *rAh; + if (w1 < 0 && w1 != 0x80000000) + w1 = -w1; + w2 = *rA; + if (w2 < 0 && w2 != 0x80000000) + w2 = -w2; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.521:X:e500:evneg %RS,%RA:Vector Negate + signed32 w1, w2; + w1 = *rAh; + /* the negative most negative number is the most negative number */ + if (w1 != 0x80000000) + w1 = -w1; + w2 = *rA; + if (w2 != 0x80000000) + w2 = -w2; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.522:X:e500:evextsb %RS,%RA:Vector Extend Signed Byte + unsigned64 w1, w2; + w1 = *rAh & 0xff; + if (w1 & 0x80) + w1 |= 0xffffff00; + w2 = *rA & 0xff; + if (w2 & 0x80) + w2 |= 0xffffff00; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK , 0); + +0.4,6.RS,11.RA,16.0,21.523:X:e500:evextsb %RS,%RA:Vector Extend Signed Half Word + unsigned64 w1, w2; + w1 = *rAh & 0xffff; + if (w1 & 0x8000) + w1 |= 0xffff0000; + w2 = *rA & 0xffff; + if (w2 & 0x8000) + w2 |= 0xffff0000; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.529:X:e500:evand %RS,%RA,%RB:Vector AND + unsigned32 w1, w2; + w1 = *rBh & *rAh; + w2 = *rB & *rA; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.535:X:e500:evor %RS,%RA,%RB:Vector OR + unsigned32 w1, w2; + w1 = *rBh | *rAh; + w2 = *rB | *rA; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.534:X:e500:evxor %RS,%RA,%RB:Vector XOR + unsigned32 w1, w2; + w1 = *rBh ^ *rAh; + w2 = *rB ^ *rA; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.542:X:e500:evnand %RS,%RA,%RB:Vector NAND + unsigned32 w1, w2; + w1 = ~(*rBh & *rAh); + w2 = ~(*rB & *rA); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.536:X:e500:evnor %RS,%RA,%RB:Vector NOR + unsigned32 w1, w2; + w1 = ~(*rBh | *rAh); + w2 = ~(*rB | *rA); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.537:X:e500:eveqv %RS,%RA,%RB:Vector Equivalent + unsigned32 w1, w2; + w1 = (~*rBh) ^ *rAh; + w2 = (~*rB) ^ *rA; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.530:X:e500:evandc %RS,%RA,%RB:Vector AND with Compliment + unsigned32 w1, w2; + w1 = (~*rBh) & *rAh; + w2 = (~*rB) & *rA; + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evandc: *rSh = %08x; *rS = %08x\n", *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.539:X:e500:evorc %RS,%RA,%RB:Vector OR with Compliment + unsigned32 w1, w2; + w1 = (~*rBh) | *rAh; + w2 = (~*rB) | *rA; + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evorc: *rSh = %08x; *rS = %08x\n", *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.552:X:e500:evrlw %RS,%RA,%RB:Vector Rotate Left Word + unsigned32 nh, nl, w1, w2; + nh = *rBh & 0x1f; + nl = *rB & 0x1f; + w1 = ((unsigned32)*rAh) << nh | ((unsigned32)*rAh) >> (32 - nh); + w2 = ((unsigned32)*rA) << nl | ((unsigned32)*rA) >> (32 - nl); + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evrlw: nh %d nl %d *rSh = %08x; *rS = %08x\n", nh, nl, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.554:X:e500:evrlwi %RS,%RA,%UIMM:Vector Rotate Left Word Immediate + unsigned32 w1, w2, imm; + imm = (unsigned32)UIMM; + w1 = ((unsigned32)*rAh) << imm | ((unsigned32)*rAh) >> (32 - imm); + w2 = ((unsigned32)*rA) << imm | ((unsigned32)*rA) >> (32 - imm); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.548:X:e500:evslw %RS,%RA,%RB:Vector Shift Left Word + unsigned32 nh, nl, w1, w2; + nh = *rBh & 0x1f; + nl = *rB & 0x1f; + w1 = ((unsigned32)*rAh) << nh; + w2 = ((unsigned32)*rA) << nl; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.550:X:e500:evslwi %RS,%RA,%UIMM:Vector Shift Left Word Immediate + unsigned32 w1, w2, imm = UIMM; + w1 = ((unsigned32)*rAh) << imm; + w2 = ((unsigned32)*rA) << imm; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.545:X:e500:evsrws %RS,%RA,%RB:Vector Shift Right Word Signed + signed32 w1, w2; + unsigned32 nh, nl; + nh = *rBh & 0x1f; + nl = *rB & 0x1f; + w1 = ((signed32)*rAh) >> nh; + w2 = ((signed32)*rA) >> nl; + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evsrws: nh %d nl %d *rSh = %08x; *rS = %08x\n", nh, nl, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.544:X:e500:evsrwu %RS,%RA,%RB:Vector Shift Right Word Unsigned + unsigned32 w1, w2, nh, nl; + nh = *rBh & 0x1f; + nl = *rB & 0x1f; + w1 = ((unsigned32)*rAh) >> nh; + w2 = ((unsigned32)*rA) >> nl; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.547:X:e500:evsrwis %RS,%RA,%UIMM:Vector Shift Right Word Immediate Signed + signed32 w1, w2; + unsigned32 imm = UIMM; + w1 = ((signed32)*rAh) >> imm; + w2 = ((signed32)*rA) >> imm; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.546:X:e500:evsrwiu %RS,%RA,%UIMM:Vector Shift Right Word Immediate Unsigned + unsigned32 w1, w2, imm = UIMM; + w1 = ((unsigned32)*rAh) >> imm; + w2 = ((unsigned32)*rA) >> imm; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.525:X:e500:evcntlzw %RS,%RA:Vector Count Leading Zeros Word + unsigned32 w1, w2, mask, c1, c2; + for (c1 = 0, mask = 0x80000000, w1 = *rAh; + !(w1 & mask) && mask != 0; mask >>= 1) + c1++; + for (c2 = 0, mask = 0x80000000, w2 = *rA; + !(w2 & mask) && mask != 0; mask >>= 1) + c2++; + EV_SET_REG2(*rSh, *rS, c1, c2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.526:X:e500:evcntlsw %RS,%RA:Vector Count Leading Sign Bits Word + unsigned32 w1, w2, mask, sign_bit, c1, c2; + for (c1 = 0, mask = 0x80000000, w1 = *rAh, sign_bit = w1 & mask; + ((w1 & mask) == sign_bit) && mask != 0; + mask >>= 1, sign_bit >>= 1) + c1++; + for (c2 = 0, mask = 0x80000000, w2 = *rA, sign_bit = w2 & mask; + ((w2 & mask) == sign_bit) && mask != 0; + mask >>= 1, sign_bit >>= 1) + c2++; + EV_SET_REG2(*rSh, *rS, c1, c2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.524:X:e500:evrndw %RS,%RA:Vector Round Word + unsigned32 w1, w2; + w1 = ((unsigned32)*rAh + 0x8000) & 0xffff0000; + w2 = ((unsigned32)*rA + 0x8000) & 0xffff0000; + EV_SET_REG2(*rSh, *rS, w1, w2); + //printf("evrndw: *rSh = %08x; *rS = %08x\n", *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.556:X:e500:evmergehi %RS,%RA,%RB:Vector Merge Hi + unsigned32 w1, w2; + w1 = *rAh; + w2 = *rBh; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.557:X:e500:evmergelo %RS,%RA,%RB:Vector Merge Low + unsigned32 w1, w2; + w1 = *rA; + w2 = *rB; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.559:X:e500:evmergelohi %RS,%RA,%RB:Vector Merge Low Hi + unsigned32 w1, w2; + w1 = *rA; + w2 = *rBh; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.558:X:e500:evmergehilo %RS,%RA,%RB:Vector Merge Hi Low + unsigned32 w1, w2; + w1 = *rAh; + w2 = *rB; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.SIMM,16.0,21.553:X:e500:evsplati %RS,%SIMM:Vector Splat Immediate + unsigned32 w; + w = SIMM & 0x1f; + if (w & 0x10) + w |= 0xffffffe0; + EV_SET_REG2(*rSh, *rS, w, w); + PPC_INSN_INT(RS_BITMASK, 0, 0); + +0.4,6.RS,11.SIMM,16.0,21.555:X:e500:evsplatfi %RS,%SIMM:Vector Splat Fractional Immediate + unsigned32 w; + w = SIMM << 27; + EV_SET_REG2(*rSh, *rS, w, w); + PPC_INSN_INT(RS_BITMASK, 0, 0); + +0.4,6.BF,9.0,11.RA,16.RB,21.561:X:e500:evcmpgts %BF,%RA,%RB:Vector Compare Greater Than Signed + signed32 ah, al, bh, bl; + int w, ch, cl; + ah = *rAh; + al = *rA; + bh = *rBh; + bl = *rB; + if (ah > bh) + ch = 1; + else + ch = 0; + if (al > bl) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.BF,9.0,11.RA,16.RB,21.560:X:e500:evcmpgtu %BF,%RA,%RB:Vector Compare Greater Than Unsigned + unsigned32 ah, al, bh, bl; + int w, ch, cl; + ah = *rAh; + al = *rA; + bh = *rBh; + bl = *rB; + if (ah > bh) + ch = 1; + else + ch = 0; + if (al > bl) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.BF,9.0,11.RA,16.RB,21.563:X:e500:evcmplts %BF,%RA,%RB:Vector Compare Less Than Signed + signed32 ah, al, bh, bl; + int w, ch, cl; + ah = *rAh; + al = *rA; + bh = *rBh; + bl = *rB; + if (ah < bh) + ch = 1; + else + ch = 0; + if (al < bl) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.BF,9.0,11.RA,16.RB,21.562:X:e500:evcmpltu %BF,%RA,%RB:Vector Compare Less Than Unsigned + unsigned32 ah, al, bh, bl; + int w, ch, cl; + ah = *rAh; + al = *rA; + bh = *rBh; + bl = *rB; + if (ah < bh) + ch = 1; + else + ch = 0; + if (al < bl) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.BF,9.0,11.RA,16.RB,21.564:X:e500:evcmpeq %BF,%RA,%RB:Vector Compare Equal + unsigned32 ah, al, bh, bl; + int w, ch, cl; + ah = *rAh; + al = *rA; + bh = *rBh; + bl = *rB; + if (ah == bh) + ch = 1; + else + ch = 0; + if (al == bl) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + //printf("evcmpeq: ch %d cl %d BF %d, CR is now %08x\n", ch, cl, BF, CR); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.RS,11.RA,16.RB,21.79,29.CRFS:X:e500:evsel %RS,%RA,%RB,%CRFS:Vector Select + unsigned32 w1, w2; + int cr; + cr = CR_FIELD(CRFS); + if (cr & 8) + w1 = *rAh; + else + w1 = *rBh; + if (cr & 4) + w2 = *rA; + else + w2 = *rB; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.527:X:e500:brinc %RS,%RA,%RB:Bit Reversed Increment + unsigned32 w1, w2, a, d, mask; + mask = (*rB) & 0xffff; + a = (*rA) & 0xffff; + d = EV_BITREVERSE16(1 + EV_BITREVERSE16(a | ~mask)); + *rS = ((*rA) & 0xffff0000) | (d & 0xffff); + //printf("brinc: *rS = %08x\n", *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +# +# A.2.8 Integer SPE Complex Instructions +# + +0.4,6.RS,11.RA,16.RB,21.1031:EVX:e500:evmhossf %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Saturate Fractional + signed16 al, ah, bl, bh; + signed32 tl, th; + int movl, movh; + + al = (signed16) EV_LOHALF (*rA); + ah = (signed16) EV_LOHALF (*rAh); + bl = (signed16) EV_LOHALF (*rB); + bh = (signed16) EV_LOHALF (*rBh); + tl = ev_multiply16_ssf (al, bl, &movl); + th = ev_multiply16_ssf (ah, bh, &movh); + EV_SET_REG2 (*rSh, *rS, EV_SATURATE (movh, 0x7fffffff, th), + EV_SATURATE (movl, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV (movl, movh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1063:EVX:e500:evmhossfa %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Saturate Fractional Accumulate + signed16 al, ah, bl, bh; + signed32 tl, th; + int movl, movh; + + al = (signed16) EV_LOHALF (*rA); + ah = (signed16) EV_LOHALF (*rAh); + bl = (signed16) EV_LOHALF (*rB); + bh = (signed16) EV_LOHALF (*rBh); + tl = ev_multiply16_ssf (al, bl, &movl); + th = ev_multiply16_ssf (ah, bh, &movh); + EV_SET_REG2 (*rSh, *rS, EV_SATURATE (movh, 0x7fffffff, th), + EV_SATURATE (movl, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV (movl, movh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1039:EVX:e500:evmhosmf %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Modulo Fractional + signed16 al, ah, bl, bh; + signed32 tl, th; + int dummy; + + al = (signed16) EV_LOHALF (*rA); + ah = (signed16) EV_LOHALF (*rAh); + bl = (signed16) EV_LOHALF (*rB); + bh = (signed16) EV_LOHALF (*rBh); + tl = ev_multiply16_smf (al, bl, & dummy); + th = ev_multiply16_smf (ah, bh, & dummy); + EV_SET_REG2 (*rSh, *rS, th, tl); + PPC_INSN_INT (RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1071:EVX:e500:evmhosmfa %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Modulo Fractional Accumulate + signed32 al, ah, bl, bh; + signed32 tl, th; + int dummy; + + al = (signed16) EV_LOHALF (*rA); + ah = (signed16) EV_LOHALF (*rAh); + bl = (signed16) EV_LOHALF (*rB); + bh = (signed16) EV_LOHALF (*rBh); + tl = ev_multiply16_smf (al, bl, & dummy); + th = ev_multiply16_smf (ah, bh, & dummy); + EV_SET_REG2_ACC (*rSh, *rS, th, tl); + PPC_INSN_INT (RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1037:EVX:e500:evmhosmi %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Modulo Integer + signed32 al, ah, bl, bh, tl, th; + al = (signed32)(signed16)EV_LOHALF(*rA); + ah = (signed32)(signed16)EV_LOHALF(*rAh); + bl = (signed32)(signed16)EV_LOHALF(*rB); + bh = (signed32)(signed16)EV_LOHALF(*rBh); + tl = al * bl; + th = ah * bh; + EV_SET_REG2(*rSh, *rS, th, tl); + //printf("evmhosmi: *rSh = %08x; *rS = %08x\n", *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1069:EVX:e500:evmhosmia %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Modulo Integer Accumulate + signed32 al, ah, bl, bh, tl, th; + al = (signed32)(signed16)EV_LOHALF(*rA); + ah = (signed32)(signed16)EV_LOHALF(*rAh); + bl = (signed32)(signed16)EV_LOHALF(*rB); + bh = (signed32)(signed16)EV_LOHALF(*rBh); + tl = al * bl; + th = ah * bh; + EV_SET_REG2_ACC(*rSh, *rS, th, tl); + //printf("evmhosmia: ACC = %08x; *rSh = %08x; *rS = %08x\n", ACC, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1036:EVX:e500:evmhoumi %RS,%RA,%RB:Vector Multiply Half Words Odd Unsigned Modulo Integer + unsigned32 al, ah, bl, bh, tl, th; + al = (unsigned32)(unsigned16)EV_LOHALF(*rA); + ah = (unsigned32)(unsigned16)EV_LOHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_LOHALF(*rB); + bh = (unsigned32)(unsigned16)EV_LOHALF(*rBh); + tl = al * bl; + th = ah * bh; + EV_SET_REG2(*rSh, *rS, th, tl); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1068:EVX:e500:evmhoumia %RS,%RA,%RB:Vector Multiply Half Words Odd Unsigned Modulo Integer Accumulate + unsigned32 al, ah, bl, bh, tl, th; + al = (unsigned32)(unsigned16)EV_LOHALF(*rA); + ah = (unsigned32)(unsigned16)EV_LOHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_LOHALF(*rB); + bh = (unsigned32)(unsigned16)EV_LOHALF(*rBh); + tl = al * bl; + th = ah * bh; + EV_SET_REG2_ACC(*rSh, *rS, th, tl); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1027:EVX:e500:evmhessf %RS,%RA,%RB:Vector Multiply Half Words Even Signed Saturate Fractional + signed16 al, ah, bl, bh; + signed32 tl, th; + int movl, movh; + + al = (signed16) EV_HIHALF (*rA); + ah = (signed16) EV_HIHALF (*rAh); + bl = (signed16) EV_HIHALF (*rB); + bh = (signed16) EV_HIHALF (*rBh); + tl = ev_multiply16_ssf (al, bl, &movl); + th = ev_multiply16_ssf (ah, bh, &movh); + EV_SET_REG2 (*rSh, *rS, EV_SATURATE (movh, 0x7fffffff, th), + EV_SATURATE (movl, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV (movl, movh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1059:EVX:e500:evmhessfa %RS,%RA,%RB:Vector Multiply Half Words Even Signed Saturate Fractional Accumulate + signed16 al, ah, bl, bh; + signed32 tl, th; + int movl, movh; + + al = (signed16) EV_HIHALF (*rA); + ah = (signed16) EV_HIHALF (*rAh); + bl = (signed16) EV_HIHALF (*rB); + bh = (signed16) EV_HIHALF (*rBh); + tl = ev_multiply16_ssf (al, bl, &movl); + th = ev_multiply16_ssf (ah, bh, &movh); + EV_SET_REG2_ACC (*rSh, *rS, EV_SATURATE (movh, 0x7fffffff, th), + EV_SATURATE (movl, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV (movl, movh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1035:EVX:e500:evmhesmf %RS,%RA,%RB:Vector Multiply Half Words Even Signed Modulo Fractional + signed16 al, ah, bl, bh; + signed64 tl, th; + int movl, movh; + + al = (signed16) EV_HIHALF (*rA); + ah = (signed16) EV_HIHALF (*rAh); + bl = (signed16) EV_HIHALF (*rB); + bh = (signed16) EV_HIHALF (*rBh); + tl = ev_multiply16_smf (al, bl, &movl); + th = ev_multiply16_smf (ah, bh, &movh); + EV_SET_REG2 (*rSh, *rS, th, tl); + EV_SET_SPEFSCR_OV (movl, movh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1067:EVX:e500:evmhesmfa %RS,%RA,%RB:Vector Multiply Half Words Even Signed Modulo Fractional Accumulate + signed16 al, ah, bl, bh; + signed32 tl, th; + int dummy; + + al = (signed16) EV_HIHALF (*rA); + ah = (signed16) EV_HIHALF (*rAh); + bl = (signed16) EV_HIHALF (*rB); + bh = (signed16) EV_HIHALF (*rBh); + tl = ev_multiply16_smf (al, bl, & dummy); + th = ev_multiply16_smf (ah, bh, & dummy); + EV_SET_REG2_ACC (*rSh, *rS, th, tl); + PPC_INSN_INT (RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1033:EVX:e500:evmhesmi %RS,%RA,%RB:Vector Multiply Half Words Even Signed Modulo Integer + signed16 al, ah, bl, bh; + signed32 tl, th; + + al = (signed16) EV_HIHALF (*rA); + ah = (signed16) EV_HIHALF (*rAh); + bl = (signed16) EV_HIHALF (*rB); + bh = (signed16) EV_HIHALF (*rBh); + tl = al * bl; + th = ah * bh; + EV_SET_REG2 (*rSh, *rS, th, tl); + PPC_INSN_INT (RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1065:EVX:e500:evmhesmia %RS,%RA,%RB:Vector Multiply Half Words Even Signed Modulo Integer Accumulate + signed32 al, ah, bl, bh, tl, th; + al = (signed32)(signed16)EV_HIHALF(*rA); + ah = (signed32)(signed16)EV_HIHALF(*rAh); + bl = (signed32)(signed16)EV_HIHALF(*rB); + bh = (signed32)(signed16)EV_HIHALF(*rBh); + tl = al * bl; + th = ah * bh; + EV_SET_REG2_ACC(*rSh, *rS, th, tl); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1032:EVX:e500:evmheumi %RS,%RA,%RB:Vector Multiply Half Words Even Unsigned Modulo Integer + unsigned32 al, ah, bl, bh, tl, th; + al = (unsigned32)(unsigned16)EV_HIHALF(*rA); + ah = (unsigned32)(unsigned16)EV_HIHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_HIHALF(*rB); + bh = (unsigned32)(unsigned16)EV_HIHALF(*rBh); + tl = al * bl; + th = ah * bh; + EV_SET_REG2(*rSh, *rS, th, tl); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1064:EVX:e500:evmheumia %RS,%RA,%RB:Vector Multiply Half Words Even Unsigned Modulo Integer Accumulate + unsigned32 al, ah, bl, bh, tl, th; + al = (unsigned32)(unsigned16)EV_HIHALF(*rA); + ah = (unsigned32)(unsigned16)EV_HIHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_HIHALF(*rB); + bh = (unsigned32)(unsigned16)EV_HIHALF(*rBh); + tl = al * bl; + th = ah * bh; + EV_SET_REG2_ACC(*rSh, *rS, th, tl); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1287:EVX:e500:evmhossfaaw %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Saturate Fractional and Accumulate into Words + signed16 al, ah, bl, bh; + signed32 t1, t2; + signed64 tl, th; + int movl, movh, ovl, ovh; + + al = (signed16) EV_LOHALF (*rA); + ah = (signed16) EV_LOHALF (*rAh); + bl = (signed16) EV_LOHALF (*rB); + bh = (signed16) EV_LOHALF (*rBh); + t1 = ev_multiply16_ssf (ah, bh, &movh); + t2 = ev_multiply16_ssf (al, bl, &movl); + th = EV_ACCHIGH + EV_SATURATE (movh, 0x7fffffff, t1); + tl = EV_ACCLOW + EV_SATURATE (movl, 0x7fffffff, t2); + ovh = EV_SAT_P_S32 (th); + ovl = EV_SAT_P_S32 (tl); + EV_SET_REG2_ACC (*rSh, *rS, EV_SATURATE_ACC (ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC (ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV (movl | ovl, movh | ovh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1285:EVX:e500:evmhossiaaw %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Saturate Integer and Accumulate into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + int ovl, ovh; + al = (signed32)(signed16)EV_LOHALF(*rA); + ah = (signed32)(signed16)EV_LOHALF(*rAh); + bl = (signed32)(signed16)EV_LOHALF(*rB); + bh = (signed32)(signed16)EV_LOHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH + t1; + tl = EV_ACCLOW + t2; + ovh = EV_SAT_P_S32(th); + ovl = EV_SAT_P_S32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC(ovl, tl, 0x80000000, 0x7fffffff, tl)); + //printf("evmhossiaaw: ovh %d ovl %d al %d ah %d bl %d bh %d t1 %qd t2 %qd tl %qd th %qd\n", ovh, ovl, al, ah, bl, bh, t1, t2, tl, th); + //printf("evmhossiaaw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1295:EVX:e500:evmhosmfaaw %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Modulo Fractional and Accumulate into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + al = (signed32)(signed16)EV_LOHALF(*rA); + ah = (signed32)(signed16)EV_LOHALF(*rAh); + bl = (signed32)(signed16)EV_LOHALF(*rB); + bh = (signed32)(signed16)EV_LOHALF(*rBh); + t1 = ((signed64)ah * bh) << 1; + t2 = ((signed64)al * bl) << 1; + th = EV_ACCHIGH + (t1 & 0xffffffff); + tl = EV_ACCLOW + (t2 & 0xffffffff); + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1293:EVX:e500:evmhosmiaaw %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Modulo Integer and Accumulate into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + al = (signed32)(signed16)EV_LOHALF(*rA); + ah = (signed32)(signed16)EV_LOHALF(*rAh); + bl = (signed32)(signed16)EV_LOHALF(*rB); + bh = (signed32)(signed16)EV_LOHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH + t1; + tl = EV_ACCLOW + t2; + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + //printf("evmhosmiaaw: al %d ah %d bl %d bh %d t1 %qd t2 %qd tl %qd th %qd\n", al, ah, bl, bh, t1, t2, tl, th); + //printf("evmhosmiaaw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1284:EVX:e500:evmhousiaaw %RS,%RA,%RB:Vector Multiply Half Words Odd Unsigned Saturate Integer and Accumulate into Words + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + signed64 tl, th; + int ovl, ovh; + al = (unsigned32)(unsigned16)EV_LOHALF(*rA); + ah = (unsigned32)(unsigned16)EV_LOHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_LOHALF(*rB); + bh = (unsigned32)(unsigned16)EV_LOHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = (signed64)EV_ACCHIGH + (signed64)t1; + tl = (signed64)EV_ACCLOW + (signed64)t2; + ovh = EV_SAT_P_U32(th); + ovl = EV_SAT_P_U32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0, 0xffffffff, th), + EV_SATURATE_ACC(ovl, tl, 0, 0xffffffff, tl)); + //printf("evmhousiaaw: al %u ah %u bl %u bh %u t1 %qu t2 %qu tl %qu th %qu\n", al, ah, bl, bh, t1, t2, tl, th); + //printf("evmhousiaaw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1292:EVX:e500:evmhoumiaaw %RS,%RA,%RB:Vector Multiply Half Words Odd Unsigned Modulo Integer and Accumulate into Words + unsigned32 al, ah, bl, bh; + unsigned32 t1, t2; + signed64 tl, th; + al = (unsigned32)(unsigned16)EV_LOHALF(*rA); + ah = (unsigned32)(unsigned16)EV_LOHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_LOHALF(*rB); + bh = (unsigned32)(unsigned16)EV_LOHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH + t1; + tl = EV_ACCLOW + t2; + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + //printf("evmhoumiaaw: al %u ah %u bl %u bh %u t1 %qu t2 %qu tl %qu th %qu\n", al, ah, bl, bh, t1, t2, tl, th); + //printf("evmhoumiaaw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1283:EVX:e500:evmhessfaaw %RS,%RA,%RB:Vector Multiply Half Words Even Signed Saturate Fractional and Accumulate into Words + signed16 al, ah, bl, bh; + signed32 t1, t2; + signed64 tl, th; + int movl, movh, ovl, ovh; + + al = (signed16) EV_HIHALF (*rA); + ah = (signed16) EV_HIHALF (*rAh); + bl = (signed16) EV_HIHALF (*rB); + bh = (signed16) EV_HIHALF (*rBh); + t1 = ev_multiply16_ssf (ah, bh, &movh); + t2 = ev_multiply16_ssf (al, bl, &movl); + th = EV_ACCHIGH + EV_SATURATE (movh, 0x7fffffff, t1); + tl = EV_ACCLOW + EV_SATURATE (movl, 0x7fffffff, t2); + ovh = EV_SAT_P_S32 (th); + ovl = EV_SAT_P_S32 (tl); + EV_SET_REG2_ACC (*rSh, *rS, EV_SATURATE_ACC (ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC (ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV (movl | ovl, movh | ovh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1281:EVX:e500:evmhessiaaw %RS,%RA,%RB:Vector Multiply Half Words Even Signed Saturate Integer and Accumulate into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + int ovl, ovh; + al = (signed32)(signed16)EV_HIHALF(*rA); + ah = (signed32)(signed16)EV_HIHALF(*rAh); + bl = (signed32)(signed16)EV_HIHALF(*rB); + bh = (signed32)(signed16)EV_HIHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH + t1; + tl = EV_ACCLOW + t2; + ovh = EV_SAT_P_S32(th); + ovl = EV_SAT_P_S32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC(ovl, tl, 0x80000000, 0x7fffffff, tl)); + //printf("evmhessiaaw: ovh %d ovl %d al %d ah %d bl %d bh %d t1 %qd t2 %qd tl %qd th %qd\n", ovh, ovl, al, ah, bl, bh, t1, t2, tl, th); + //printf("evmhessiaaw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1291:EVX:e500:evmhesmfaaw %RS,%RA,%RB:Vector Multiply Half Words Even Signed Modulo Fractional and Accumulate into Words + signed16 al, ah, bl, bh; + signed32 t1, t2, th, tl; + int dummy; + + al = (signed16)EV_HIHALF(*rA); + ah = (signed16)EV_HIHALF(*rAh); + bl = (signed16)EV_HIHALF(*rB); + bh = (signed16)EV_HIHALF(*rBh); + t1 = ev_multiply16_smf (ah, bh, &dummy); + t2 = ev_multiply16_smf (al, bl, &dummy); + th = EV_ACCHIGH + t1; + tl = EV_ACCLOW + t2; + EV_SET_REG2_ACC(*rSh, *rS, th, tl); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1289:EVX:e500:evmhesmiaaw %RS,%RA,%RB:Vector Multiply Half Words Even Signed Modulo Integer and Accumulate into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + al = (signed32)(signed16)EV_HIHALF(*rA); + ah = (signed32)(signed16)EV_HIHALF(*rAh); + bl = (signed32)(signed16)EV_HIHALF(*rB); + bh = (signed32)(signed16)EV_HIHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH + t1; + tl = EV_ACCLOW + t2; + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1280:EVX:e500:evmheusiaaw %RS,%RA,%RB:Vector Multiply Half Words Even Unsigned Saturate Integer and Accumulate into Words + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + signed64 tl, th; + int ovl, ovh; + al = (unsigned32)(unsigned16)EV_HIHALF(*rA); + ah = (unsigned32)(unsigned16)EV_HIHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_HIHALF(*rB); + bh = (unsigned32)(unsigned16)EV_HIHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = (signed64)EV_ACCHIGH + (signed64)t1; + tl = (signed64)EV_ACCLOW + (signed64)t2; + ovh = EV_SAT_P_U32(th); + ovl = EV_SAT_P_U32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0, 0xffffffff, th), + EV_SATURATE_ACC(ovl, tl, 0, 0xffffffff, tl)); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1288:EVX:e500:evmheumiaaw %RS,%RA,%RB:Vector Multiply Half Words Even Unsigned Modulo Integer and Accumulate into Words + unsigned32 al, ah, bl, bh; + unsigned32 t1, t2; + unsigned64 tl, th; + al = (unsigned32)(unsigned16)EV_HIHALF(*rA); + ah = (unsigned32)(unsigned16)EV_HIHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_HIHALF(*rB); + bh = (unsigned32)(unsigned16)EV_HIHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH + t1; + tl = EV_ACCLOW + t2; + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1415:EVX:e500:evmhossfanw %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Saturate Fractional and Accumulate Negative into Words + signed16 al, ah, bl, bh; + signed32 t1, t2; + signed64 tl, th; + int movl, movh, ovl, ovh; + + al = (signed16) EV_LOHALF (*rA); + ah = (signed16) EV_LOHALF (*rAh); + bl = (signed16) EV_LOHALF (*rB); + bh = (signed16) EV_LOHALF (*rBh); + t1 = ev_multiply16_ssf (ah, bh, &movh); + t2 = ev_multiply16_ssf (al, bl, &movl); + th = EV_ACCHIGH - EV_SATURATE (movh, 0x7fffffff, t1); + tl = EV_ACCLOW - EV_SATURATE (movl, 0x7fffffff, t2); + ovh = EV_SAT_P_S32 (th); + ovl = EV_SAT_P_S32 (tl); + EV_SET_REG2_ACC (*rSh, *rS, EV_SATURATE_ACC (ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC (ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV (movl | ovl, movh | ovh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1413:EVX:e500:evmhossianw %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Saturate Integer and Accumulate Negative into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + int ovl, ovh; + al = (signed32)(signed16)EV_LOHALF(*rA); + ah = (signed32)(signed16)EV_LOHALF(*rAh); + bl = (signed32)(signed16)EV_LOHALF(*rB); + bh = (signed32)(signed16)EV_LOHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH - t1; + tl = EV_ACCLOW - t2; + ovh = EV_SAT_P_S32(th); + ovl = EV_SAT_P_S32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC(ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV(ovl, ovh); + //printf("evmhossianw: ACC = %08x; *rSh = %08x; *rS = %08x\n", ACC, *rSh, *rS); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1423:EVX:e500:evmhosmfanw %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Modulo Fractional and Accumulate Negative into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + al = (signed32)(signed16)EV_LOHALF(*rA); + ah = (signed32)(signed16)EV_LOHALF(*rAh); + bl = (signed32)(signed16)EV_LOHALF(*rB); + bh = (signed32)(signed16)EV_LOHALF(*rBh); + t1 = ((signed64)ah * bh) << 1; + t2 = ((signed64)al * bl) << 1; + th = EV_ACCHIGH - (t1 & 0xffffffff); + tl = EV_ACCLOW - (t2 & 0xffffffff); + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1421:EVX:e500:evmhosmianw %RS,%RA,%RB:Vector Multiply Half Words Odd Signed Modulo Integer and Accumulate Negative into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + al = (signed32)(signed16)EV_LOHALF(*rA); + ah = (signed32)(signed16)EV_LOHALF(*rAh); + bl = (signed32)(signed16)EV_LOHALF(*rB); + bh = (signed32)(signed16)EV_LOHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH - t1; + tl = EV_ACCLOW - t2; + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1412:EVX:e500:evmhousianw %RS,%RA,%RB:Vector Multiply Half Words Odd Unsigned Saturate Integer and Accumulate Negative into Words + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + signed64 tl, th; + int ovl, ovh; + al = (unsigned32)(unsigned16)EV_LOHALF(*rA); + ah = (unsigned32)(unsigned16)EV_LOHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_LOHALF(*rB); + bh = (unsigned32)(unsigned16)EV_LOHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = (signed64)EV_ACCHIGH - (signed64)t1; + tl = (signed64)EV_ACCLOW - (signed64)t2; + ovl = EV_SAT_P_U32(tl); + ovh = EV_SAT_P_U32(th); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0, 0xffffffff, th), + EV_SATURATE_ACC(ovl, tl, 0, 0xffffffff, tl)); + //printf("evmhousianw: ovh %d ovl %d al %d ah %d bl %d bh %d t1 %qd t2 %qd tl %qd th %qd\n", ovh, ovl, al, ah, bl, bh, t1, t2, tl, th); + //printf("evmoussianw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1420:EVX:e500:evmhoumianw %RS,%RA,%RB:Vector Multiply Half Words Odd Unsigned Modulo Integer and Accumulate Negative into Words + unsigned32 al, ah, bl, bh; + unsigned32 t1, t2; + unsigned64 tl, th; + al = (unsigned32)(unsigned16)EV_LOHALF(*rA); + ah = (unsigned32)(unsigned16)EV_LOHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_LOHALF(*rB); + bh = (unsigned32)(unsigned16)EV_LOHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH - t1; + tl = EV_ACCLOW - t2; + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1411:EVX:e500:evmhessfanw %RS,%RA,%RB:Vector Multiply Half Words Even Signed Saturate Fractional and Accumulate Negative into Words + signed16 al, ah, bl, bh; + signed32 t1, t2; + signed64 tl, th; + int movl, movh, ovl, ovh; + + al = (signed16) EV_HIHALF (*rA); + ah = (signed16) EV_HIHALF (*rAh); + bl = (signed16) EV_HIHALF (*rB); + bh = (signed16) EV_HIHALF (*rBh); + t1 = ev_multiply16_ssf (ah, bh, &movh); + t2 = ev_multiply16_ssf (al, bl, &movl); + th = EV_ACCHIGH - EV_SATURATE (movh, 0x7fffffff, t1); + tl = EV_ACCLOW - EV_SATURATE (movl, 0x7fffffff, t2); + ovh = EV_SAT_P_S32 (th); + ovl = EV_SAT_P_S32 (tl); + EV_SET_REG2_ACC (*rSh, *rS, EV_SATURATE_ACC (ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC (ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV (movl | ovl, movh | ovh); + PPC_INSN_INT_SPR (RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1409:EVX:e500:evmhessianw %RS,%RA,%RB:Vector Multiply Half Words Even Signed Saturate Integer and Accumulate Negative into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + int ovl, ovh; + al = (signed32)(signed16)EV_HIHALF(*rA); + ah = (signed32)(signed16)EV_HIHALF(*rAh); + bl = (signed32)(signed16)EV_HIHALF(*rB); + bh = (signed32)(signed16)EV_HIHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH - t1; + tl = EV_ACCLOW - t2; + ovh = EV_SAT_P_S32(th); + ovl = EV_SAT_P_S32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC(ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1419:EVX:e500:evmhesmfanw %RS,%RA,%RB:Vector Multiply Half Words Even Signed Modulo Fractional and Accumulate Negative into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + al = (unsigned32)(unsigned16)EV_HIHALF(*rA); + ah = (unsigned32)(unsigned16)EV_HIHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_HIHALF(*rB); + bh = (unsigned32)(unsigned16)EV_HIHALF(*rBh); + t1 = ((signed64)ah * bh) << 1; + t2 = ((signed64)al * bl) << 1; + th = EV_ACCHIGH - (t1 & 0xffffffff); + tl = EV_ACCLOW - (t2 & 0xffffffff); + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1417:EVX:e500:evmhesmianw %RS,%RA,%RB:Vector Multiply Half Words Even Signed Modulo Integer and Accumulate Negative into Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + al = (signed32)(signed16)EV_HIHALF(*rA); + ah = (signed32)(signed16)EV_HIHALF(*rAh); + bl = (signed32)(signed16)EV_HIHALF(*rB); + bh = (signed32)(signed16)EV_HIHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH - t1; + tl = EV_ACCLOW - t2; + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + //printf("evmhesmianw: al %d ah %d bl %d bh %d t1 %qd t2 %qd tl %qd th %qd\n", al, ah, bl, bh, t1, t2, tl, th); + //printf("evmhesmianw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1408:EVX:e500:evmheusianw %RS,%RA,%RB:Vector Multiply Half Words Even Unsigned Saturate Integer and Accumulate Negative into Words + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + signed64 tl, th; + int ovl, ovh; + al = (unsigned32)(unsigned16)EV_HIHALF(*rA); + ah = (unsigned32)(unsigned16)EV_HIHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_HIHALF(*rB); + bh = (unsigned32)(unsigned16)EV_HIHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = (signed64)EV_ACCHIGH - (signed64)t1; + tl = (signed64)EV_ACCLOW - (signed64)t2; + ovl = EV_SAT_P_U32(tl); + ovh = EV_SAT_P_U32(th); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0, 0xffffffff, th), + EV_SATURATE_ACC(ovl, tl, 0, 0xffffffff, tl)); + //printf("evmheusianw: ovh %d ovl %d al %u ah %u bl %u bh %u t1 %qu t2 %qu tl %qd th %qd\n", ovh, ovl, al, ah, bl, bh, t1, t2, tl, th); + //printf("evmheusianw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1416:EVX:e500:evmheumianw %RS,%RA,%RB:Vector Multiply Half Words Even Unsigned Modulo Integer and Accumulate Negative into Words + unsigned32 al, ah, bl, bh; + unsigned32 t1, t2; + unsigned64 tl, th; + al = (unsigned32)(unsigned16)EV_HIHALF(*rA); + ah = (unsigned32)(unsigned16)EV_HIHALF(*rAh); + bl = (unsigned32)(unsigned16)EV_HIHALF(*rB); + bh = (unsigned32)(unsigned16)EV_HIHALF(*rBh); + t1 = ah * bh; + t2 = al * bl; + th = EV_ACCHIGH - t1; + tl = EV_ACCLOW - t2; + EV_SET_REG2_ACC(*rSh, *rS, th & 0xffffffff, tl & 0xffffffff); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1327:EVX:e500:evmhogsmfaa %RS,%RA,%RB:Multiply Half Words Odd Guarded Signed Modulo Fractional and Accumulate + signed32 a, b; + signed64 t1, t2; + a = (signed32)(signed16)EV_LOHALF(*rA); + b = (signed32)(signed16)EV_LOHALF(*rB); + t1 = EV_MUL16_SSF(a, b); + if (t1 & ((unsigned64)1 << 32)) + t1 |= 0xfffffffe00000000; + t2 = ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1325:EVX:e500:evmhogsmiaa %RS,%RA,%RB:Multiply Half Words Odd Guarded Signed Modulo Integer and Accumulate + signed32 a, b; + signed64 t1, t2; + a = (signed32)(signed16)EV_LOHALF(*rA); + b = (signed32)(signed16)EV_LOHALF(*rB); + t1 = (signed64)a * (signed64)b; + t2 = (signed64)ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + //printf("evmhogsmiaa: a %d b %d t1 %qd t2 %qd\n", a, b, t1, t2); + //printf("evmhogsmiaa: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1324:EVX:e500:evmhogumiaa %RS,%RA,%RB:Multiply Half Words Odd Guarded Unsigned Modulo Integer and Accumulate + unsigned32 a, b; + unsigned64 t1, t2; + a = (unsigned32)(unsigned16)EV_LOHALF(*rA); + b = (unsigned32)(unsigned16)EV_LOHALF(*rB); + t1 = a * b; + t2 = ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1323:EVX:e500:evmhegsmfaa %RS,%RA,%RB:Multiply Half Words Even Guarded Signed Modulo Fractional and Accumulate + signed32 a, b; + signed64 t1, t2; + a = (signed32)(signed16)EV_HIHALF(*rA); + b = (signed32)(signed16)EV_HIHALF(*rB); + t1 = EV_MUL16_SSF(a, b); + if (t1 & ((unsigned64)1 << 32)) + t1 |= 0xfffffffe00000000; + t2 = ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1321:EVX:e500:evmhegsmiaa %RS,%RA,%RB:Multiply Half Words Even Guarded Signed Modulo Integer and Accumulate + signed32 a, b; + signed64 t1, t2; + a = (signed32)(signed16)EV_HIHALF(*rA); + b = (signed32)(signed16)EV_HIHALF(*rB); + t1 = (signed64)(a * b); + t2 = ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1320:EVX:e500:evmhegumiaa %RS,%RA,%RB:Multiply Half Words Even Guarded Unsigned Modulo Integer and Accumulate + unsigned32 a, b; + unsigned64 t1, t2; + a = (unsigned32)(unsigned16)EV_HIHALF(*rA); + b = (unsigned32)(unsigned16)EV_HIHALF(*rB); + t1 = a * b; + t2 = ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1455:EVX:e500:evmhogsmfan %RS,%RA,%RB:Multiply Half Words Odd Guarded Signed Modulo Fractional and Accumulate Negative + signed32 a, b; + signed64 t1, t2; + a = (signed32)(signed16)EV_LOHALF(*rA); + b = (signed32)(signed16)EV_LOHALF(*rB); + t1 = EV_MUL16_SSF(a, b); + if (t1 & ((unsigned64)1 << 32)) + t1 |= 0xfffffffe00000000; + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1453:EVX:e500:evmhogsmian %RS,%RA,%RB:Multiply Half Words Odd Guarded Signed Modulo Integer and Accumulate Negative + signed32 a, b; + signed64 t1, t2; + a = (signed32)(signed16)EV_LOHALF(*rA); + b = (signed32)(signed16)EV_LOHALF(*rB); + t1 = (signed64)a * (signed64)b; + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + //printf("evmhogsmian: a %d b %d t1 %qd t2 %qd\n", a, b, t1, t2); + //printf("evmhogsmian: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1452:EVX:e500:evmhogumian %RS,%RA,%RB:Multiply Half Words Odd Guarded Unsigned Modulo Integer and Accumulate Negative + unsigned32 a, b; + unsigned64 t1, t2; + a = (unsigned32)(unsigned16)EV_LOHALF(*rA); + b = (unsigned32)(unsigned16)EV_LOHALF(*rB); + t1 = (unsigned64)a * (unsigned64)b; + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1451:EVX:e500:evmhegsmfan %RS,%RA,%RB:Multiply Half Words Even Guarded Signed Modulo Fractional and Accumulate Negative + signed32 a, b; + signed64 t1, t2; + a = (signed32)(signed16)EV_HIHALF(*rA); + b = (signed32)(signed16)EV_HIHALF(*rB); + t1 = EV_MUL16_SSF(a, b); + if (t1 & ((unsigned64)1 << 32)) + t1 |= 0xfffffffe00000000; + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1449:EVX:e500:evmhegsmian %RS,%RA,%RB:Multiply Half Words Even Guarded Signed Modulo Integer and Accumulate Negative + signed32 a, b; + signed64 t1, t2; + a = (signed32)(signed16)EV_HIHALF(*rA); + b = (signed32)(signed16)EV_HIHALF(*rB); + t1 = (signed64)a * (signed64)b; + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1448:EVX:e500:evmhegumian %RS,%RA,%RB:Multiply Half Words Even Guarded Unsigned Modulo Integer and Accumulate Negative + unsigned32 a, b; + unsigned64 t1, t2; + a = (unsigned32)(unsigned16)EV_HIHALF(*rA); + b = (unsigned32)(unsigned16)EV_HIHALF(*rB); + t1 = (unsigned64)a * (unsigned64)b; + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1095:EVX:e500:evmwhssf %RS,%RA,%RB:Vector Multiply Word High Signed Saturate Fractional + signed32 al, ah, bl, bh; + signed64 t1, t2; + int movl, movh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = ev_multiply32_ssf(al, bl, &movl); + t2 = ev_multiply32_ssf(ah, bh, &movh); + EV_SET_REG2(*rSh, *rS, EV_SATURATE(movh, 0x7fffffff, t2 >> 32), + EV_SATURATE(movl, 0x7fffffff, t1 >> 32)); + EV_SET_SPEFSCR_OV(movl, movh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1127:EVX:e500:evmwhssfa %RS,%RA,%RB:Vector Multiply Word High Signed Saturate Fractional and Accumulate + signed32 al, ah, bl, bh; + signed64 t1, t2; + int movl, movh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = ev_multiply32_ssf(al, bl, &movl); + t2 = ev_multiply32_ssf(ah, bh, &movh); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE(movh, 0x7fffffff, t2 >> 32), + EV_SATURATE(movl, 0x7fffffff, t1 >> 32)); + EV_SET_SPEFSCR_OV(movl, movh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1103:EVX:e500:evmwhsmf %RS,%RA,%RB:Vector Multiply Word High Signed Modulo Fractional + signed32 al, ah, bl, bh; + signed64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = EV_MUL32_SSF(al, bl); + t2 = EV_MUL32_SSF(ah, bh); + EV_SET_REG2(*rSh, *rS, t2 >> 32, t1 >> 32); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1135:EVX:e500:evmwhsmfa %RS,%RA,%RB:Vector Multiply Word High Signed Modulo Fractional and Accumulate + signed32 al, ah, bl, bh; + signed64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = EV_MUL32_SSF(al, bl); + t2 = EV_MUL32_SSF(ah, bh); + EV_SET_REG2_ACC(*rSh, *rS, t2 >> 32, t1 >> 32); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1101:EVX:e500:evmwhsmi %RS,%RA,%RB:Vector Multiply Word High Signed Modulo Integer + signed32 al, ah, bl, bh; + signed64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (signed64)al * (signed64)bl; + t2 = (signed64)ah * (signed64)bh; + EV_SET_REG2(*rSh, *rS, t2 >> 32, t1 >> 32); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1133:EVX:e500:evmwhsmia %RS,%RA,%RB:Vector Multiply Word High Signed Modulo Integer and Accumulate + signed32 al, ah, bl, bh; + signed64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (signed64)al * (signed64)bl; + t2 = (signed64)ah * (signed64)bh; + EV_SET_REG2_ACC(*rSh, *rS, t2 >> 32, t1 >> 32); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1100:EVX:e500:evmwhumi %RS,%RA,%RB:Vector Multiply Word High Unsigned Modulo Integer + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (unsigned64)al * (unsigned64)bl; + t2 = (unsigned64)ah * (unsigned64)bh; + EV_SET_REG2(*rSh, *rS, t2 >> 32, t1 >> 32); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1132:EVX:e500:evmwhumia %RS,%RA,%RB:Vector Multiply Word High Unsigned Modulo Integer and Accumulate + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (unsigned64)al * (unsigned64)bl; + t2 = (unsigned64)ah * (unsigned64)bh; + EV_SET_REG2_ACC(*rSh, *rS, t2 >> 32, t1 >> 32); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1091:EVX:e500:evmwlssf %RS,%RA,%RB:Vector Multiply Word Low Signed Saturate Fractional + signed32 al, ah, bl, bh; + signed64 t1, t2; + int movl, movh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = ev_multiply32_ssf(al, bl, &movl); + t2 = ev_multiply32_ssf(ah, bh, &movh); + EV_SET_REG2(*rSh, *rS, EV_SATURATE(movh, 0xffffffff, t2), + EV_SATURATE(movl, 0xffffffff, t1)); + EV_SET_SPEFSCR_OV(movl, movh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1123:EVX:e500:evmwlssfa %RS,%RA,%RB:Vector Multiply Word Low Signed Saturate Fractional and Accumulate + signed32 al, ah, bl, bh; + signed64 t1, t2; + int movl, movh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = ev_multiply32_ssf(al, bl, &movl); + t2 = ev_multiply32_ssf(ah, bh, &movh); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE(movh, 0xffffffff, t2), + EV_SATURATE(movl, 0xffffffff, t1)); + EV_SET_SPEFSCR_OV(movl, movh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1099:EVX:e500:evmwlsmf %RS,%RA,%RB:Vector Multiply Word Low Signed Modulo Fractional + signed32 al, ah, bl, bh; + signed64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = EV_MUL32_SSF(al, bl); + t2 = EV_MUL32_SSF(ah, bh); + EV_SET_REG2(*rSh, *rS, t2, t1); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1131:EVX:e500:evmwlsmfa %RS,%RA,%RB:Vector Multiply Word Low Signed Modulo Fractional and Accumulate + signed32 al, ah, bl, bh; + signed64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = EV_MUL32_SSF(al, bl); + t2 = EV_MUL32_SSF(ah, bh); + EV_SET_REG2_ACC(*rSh, *rS, t2, t1); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1096:EVX:e500:evmwlumi %RS,%RA,%RB:Vector Multiply Word Low Unsigned Modulo Integer + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (unsigned64)al * (unsigned64)bl; + t2 = (unsigned64)ah * (unsigned64)bh; + EV_SET_REG2(*rSh, *rS, t2, t1); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1128:EVX:e500:evmwlumia %RS,%RA,%RB:Vector Multiply Word Low Unsigned Modulo Integer and Accumulate + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (unsigned64)al * (unsigned64)bl; + t2 = (unsigned64)ah * (unsigned64)bh; + EV_SET_REG2_ACC(*rSh, *rS, t2, t1); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1347:EVX:e500:evmwlssfaaw %RS,%RA,%RB:Vector Multiply Word Low Signed Saturate Fractional and Accumulate in Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + int movl, movh, ovl, ovh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = ev_multiply32_ssf(ah, bh, &movh); + t2 = ev_multiply32_ssf(al, bl, &movl); + th = EV_ACCHIGH + EV_SATURATE(movh, 0xffffffff, t1); + tl = EV_ACCLOW + EV_SATURATE(movl, 0xffffffff, t2); + ovh = EV_SAT_P_S32(th); + ovl = EV_SAT_P_S32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC(ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV(movl | ovl, movh | ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1345:EVX:e500:evmwlssiaaw %RS,%RA,%RB:Vector Multiply Word Low Signed Saturate Integer and Accumulate in Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + int ovl, ovh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (signed64)ah * (signed64)bh; + t2 = (signed64)al * (signed64)bl; + th = EV_ACCHIGH + (t1 & 0xffffffff); + tl = EV_ACCLOW + (t2 & 0xffffffff); + ovh = EV_SAT_P_S32(th); + ovl = EV_SAT_P_S32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC(ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1355:EVX:e500:evmwlsmfaaw %RS,%RA,%RB:Vector Multiply Word Low Signed Modulo Fractional and Accumulate in Words + signed32 al, ah, bl, bh; + signed64 t1, t2; + int mov; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = ev_multiply32_smf(ah, bh, &mov); + t2 = ev_multiply32_smf(al, bl, &mov); + EV_SET_REG2_ACC(*rSh, *rS, EV_ACCHIGH + (t1 & 0xffffffff), + EV_ACCLOW + (t2 & 0xffffffff)); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1353:EVX:e500:evmwlsmiaaw %RS,%RA,%RB:Vector Multiply Word Low Signed Modulo Integer and Accumulate in Words + signed32 al, ah, bl, bh; + signed64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (signed64)ah * (signed64)bh; + t2 = (signed64)al * (signed64)bl; + EV_SET_REG2_ACC(*rSh, *rS, EV_ACCHIGH + (t1 & 0xffffffff), + EV_ACCLOW + (t2 & 0xffffffff)); + //printf("evmwlsmiaaw: al %d ah %d bl %d bh %d t1 %qd t2 %qd\n", al, ah, bl, bh, t1, t2); + //printf("evmwlsmiaaw: *rSh = %08x; *rS = %08x\n", *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1344:EVX:e500:evmwlusiaaw %RS,%RA,%RB:Vector Multiply Word Low Unsigned Saturate Integer and Accumulate in Words + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2, tl, th; + int ovl, ovh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (unsigned64)ah * (unsigned64)bh; + t2 = (unsigned64)al * (unsigned64)bl; + th = EV_ACCHIGH + (t1 & 0xffffffff); + tl = EV_ACCLOW + (t2 & 0xffffffff); + ovh = (th >> 32); + ovl = (tl >> 32); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE(ovh, 0xffffffff, th), + EV_SATURATE(ovl, 0xffffffff, tl)); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1352:EVX:e500:evmwlumiaaw %RS,%RA,%RB:Vector Multiply Word Low Unsigned Modulo Integer and Accumulate in Words + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (unsigned64)ah * (unsigned64)bh; + t2 = (unsigned64)al * (unsigned64)bl; + EV_SET_REG2_ACC(*rSh, *rS, EV_ACCHIGH + (t1 & 0xffffffff), + EV_ACCLOW + (t2 & 0xffffffff)); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1475:EVX:e500:evmwlssfanw %RS,%RA,%RB:Vector Multiply Word Low Signed Saturate Fractional and Accumulate Negative in Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + int movl, movh, ovl, ovh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = ev_multiply32_ssf(ah, bh, &movh); + t2 = ev_multiply32_ssf(al, bl, &movl); + th = EV_ACCHIGH - EV_SATURATE(movh, 0xffffffff, t1); + tl = EV_ACCLOW - EV_SATURATE(movl, 0xffffffff, t2); + ovh = EV_SAT_P_S32(th); + ovl = EV_SAT_P_S32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC(ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV(movl | ovl, movh | ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1473:EVX:e500:evmwlssianw %RS,%RA,%RB:Vector Multiply Word Low Signed Saturate Integer and Accumulate Negative in Words + signed32 al, ah, bl, bh; + signed64 t1, t2, tl, th; + int ovl, ovh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (signed64)ah * (signed64)bh; + t2 = (signed64)al * (signed64)bl; + th = EV_ACCHIGH - (t1 & 0xffffffff); + tl = EV_ACCLOW - (t2 & 0xffffffff); + ovh = EV_SAT_P_S32(th); + ovl = EV_SAT_P_S32(tl); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, th, 0x80000000, 0x7fffffff, th), + EV_SATURATE_ACC(ovl, tl, 0x80000000, 0x7fffffff, tl)); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1483:EVX:e500:evmwlsmfanw %RS,%RA,%RB:Vector Multiply Word Low Signed Modulo Fractional and Accumulate Negative in Words + signed32 al, ah, bl, bh; + signed64 t1, t2; + int mov; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = ev_multiply32_smf(ah, bh, &mov); + t2 = ev_multiply32_smf(al, bl, &mov); + EV_SET_REG2_ACC(*rSh, *rS, EV_ACCHIGH - (t1 & 0xffffffff), + EV_ACCLOW - (t2 & 0xffffffff)); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1481:EVX:e500:evmwlsmianw %RS,%RA,%RB:Vector Multiply Word Low Signed Modulo Integer and Accumulate Negative in Words + signed32 al, ah, bl, bh; + signed64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (signed64)ah * (signed64)bh; + t2 = (signed64)al * (signed64)bl; + EV_SET_REG2_ACC(*rSh, *rS, EV_ACCHIGH - (t1 & 0xffffffff), + EV_ACCLOW - (t2 & 0xffffffff)); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1472:EVX:e500:evmwlusianw %RS,%RA,%RB:Vector Multiply Word Low Unsigned Saturate Integer and Accumulate Negative in Words + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2, tl, th; + int ovl, ovh; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (unsigned64)ah * (unsigned64)bh; + t2 = (unsigned64)al * (unsigned64)bl; + th = EV_ACCHIGH - (t1 & 0xffffffff); + tl = EV_ACCLOW - (t2 & 0xffffffff); + ovh = (th >> 32); + ovl = (tl >> 32); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE(ovh, 0xffffffff, th), + EV_SATURATE(ovl, 0xffffffff, tl)); + //printf("evmwlusianw: ovl %d ovh %d al %d ah %d bl %d bh %d t1 %qd t2 %qd th %qd tl %qd\n", ovl, ovh, al, ah, al, bh, t1, t2, th, tl); + //printf("evmwlusianw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1480:EVX:e500:evmwlumianw %RS,%RA,%RB:Vector Multiply Word Low Unsigned Modulo Integer and Accumulate Negative in Words + unsigned32 al, ah, bl, bh; + unsigned64 t1, t2; + al = *rA; + ah = *rAh; + bl = *rB; + bh = *rBh; + t1 = (unsigned64)ah * (unsigned64)bh; + t2 = (unsigned64)al * (unsigned64)bl; + EV_SET_REG2_ACC(*rSh, *rS, EV_ACCHIGH - (t1 & 0xffffffff), + EV_ACCLOW - (t2 & 0xffffffff)); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1107:EVX:e500:evmwssf %RS,%RA,%RB:Vector Multiply Word Signed Saturate Fractional + signed32 a, b; + signed64 t; + int movl; + a = *rA; + b = *rB; + t = ev_multiply32_ssf(a, b, &movl); + EV_SET_REG1(*rSh, *rS, EV_SATURATE(movl, 0x7fffffffffffffff, t)); + EV_SET_SPEFSCR_OV(movl, 0); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1139:EVX:e500:evmwssfa %RS,%RA,%RB:Vector Multiply Word Signed Saturate Fractional and Accumulate + signed32 a, b; + signed64 t; + int movl; + a = *rA; + b = *rB; + t = ev_multiply32_ssf(a, b, &movl); + EV_SET_REG1_ACC(*rSh, *rS, EV_SATURATE(movl, 0x7fffffffffffffff, t)); + EV_SET_SPEFSCR_OV(movl, 0); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1115:EVX:e500:evmwsmf %RS,%RA,%RB:Vector Multiply Word Signed Modulo Fractional + signed32 a, b; + signed64 t; + int movl; + a = *rA; + b = *rB; + t = ev_multiply32_smf(a, b, &movl); + EV_SET_REG1(*rSh, *rS, t); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1147:EVX:e500:evmwsmfa %RS,%RA,%RB:Vector Multiply Word Signed Modulo Fractional and Accumulate + signed32 a, b; + signed64 t; + int movl; + a = *rA; + b = *rB; + t = ev_multiply32_smf(a, b, &movl); + EV_SET_REG1_ACC(*rSh, *rS, t); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1113:EVX:e500:evmwsmi %RS,%RA,%RB:Vector Multiply Word Signed Modulo Integer + signed32 a, b; + signed64 t; + int movl; + a = *rA; + b = *rB; + t = (signed64)a * (signed64)b; + EV_SET_REG1(*rSh, *rS, t); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1145:EVX:e500:evmwsmia %RS,%RA,%RB:Vector Multiply Word Signed Modulo Integer and Accumulate + signed32 a, b; + signed64 t; + int movl; + a = *rA; + b = *rB; + t = (signed64)a * (signed64)b; + EV_SET_REG1_ACC(*rSh, *rS, t); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1112:EVX:e500:evmwumi %RS,%RA,%RB:Vector Multiply Word Unigned Modulo Integer + unsigned32 a, b; + unsigned64 t; + int movl; + a = *rA; + b = *rB; + t = (signed64)a * (signed64)b; + EV_SET_REG1(*rSh, *rS, t); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1144:EVX:e500:evmwumia %RS,%RA,%RB:Vector Multiply Word Unigned Modulo Integer and Accumulate + unsigned32 a, b; + unsigned64 t; + int movl; + a = *rA; + b = *rB; + t = (signed64)a * (signed64)b; + EV_SET_REG1_ACC(*rSh, *rS, t); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1363:EVX:e500:evmwssfaa %RS,%RA,%RB:Vector Multiply Word Signed Saturate Fractional Add and Accumulate + signed64 t1, t2; + signed32 a, b; + int movl; + a = *rA; + b = *rB; + t1 = ev_multiply32_ssf(a, b, &movl); + t2 = ACC + EV_SATURATE(movl, 0x7fffffffffffffff, t1); + EV_SET_REG1_ACC(*rSh, *rS, t2); + EV_SET_SPEFSCR_OV(movl, 0); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1371:EVX:e500:evmwsmfaa %RS,%RA,%RB:Vector Multiply Word Signed Modulo Fractional Add and Accumulate + signed64 t1, t2; + signed32 a, b; + int movl; + a = *rA; + b = *rB; + t1 = ev_multiply32_smf(a, b, &movl); + t2 = ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1369:EVX:e500:evmwsmiaa %RS,%RA,%RB:Vector Multiply Word Signed Modulo Integer And and Accumulate + signed64 t1, t2; + signed32 a, b; + a = *rA; + b = *rB; + t1 = (signed64)a * (signed64)b; + t2 = ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1368:EVX:e500:evmwumiaa %RS,%RA,%RB:Vector Multiply Word Unsigned Modulo Integer Add and Accumulate + unsigned64 t1, t2; + unsigned32 a, b; + a = *rA; + b = *rB; + t1 = (unsigned64)a * (unsigned64)b; + t2 = ACC + t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.RB,21.1491:EVX:e500:evmwssfan %RS,%RA,%RB:Vector Multiply Word Signed Saturate Fractional and Accumulate Negative + signed64 t1, t2; + signed32 a, b; + int movl; + a = *rA; + b = *rB; + t1 = ev_multiply32_ssf(a, b, &movl); + t2 = ACC - EV_SATURATE(movl, 0x7fffffffffffffff, t1); + EV_SET_REG1_ACC(*rSh, *rS, t2); + EV_SET_SPEFSCR_OV(movl, 0); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.1499:EVX:e500:evmwsmfan %RS,%RA,%RB:Vector Multiply Word Signed Modulo Fractional and Accumulate Negative + signed64 t1, t2; + signed32 a, b; + int movl; + a = *rA; + b = *rB; + t1 = ev_multiply32_smf(a, b, &movl); + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1497:EVX:e500:evmwsmian %RS,%RA,%RB:Vector Multiply Word Signed Modulo Integer and Accumulate Negative + signed64 t1, t2; + signed32 a, b; + a = *rA; + b = *rB; + t1 = (signed64)a * (signed64)b; + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1496:EVX:e500:evmwumian %RS,%RA,%RB:Vector Multiply Word Unsigned Modulo Integer and Accumulate Negative + unsigned64 t1, t2; + unsigned32 a, b; + a = *rA; + b = *rB; + t1 = (unsigned64)a * (unsigned64)b; + t2 = ACC - t1; + EV_SET_REG1_ACC(*rSh, *rS, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.0,21.1217:EVX:e500:evaddssiaaw %RS,%RA:Vector Add Signed Saturate Integer to Accumulator Word + signed64 t1, t2; + signed32 al, ah; + int ovl, ovh; + al = *rA; + ah = *rAh; + t1 = (signed64)EV_ACCHIGH + (signed64)ah; + t2 = (signed64)EV_ACCLOW + (signed64)al; + ovh = EV_SAT_P_S32(t1); + ovl = EV_SAT_P_S32(t2); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, t1 & ((unsigned64)1 << 32), 0x80000000, 0x7fffffff, t1), + EV_SATURATE_ACC(ovl, t2 & ((unsigned64)1 << 32), 0x80000000, 0x7fffffff, t2)); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.0,21.1225:EVX:e500:evaddsmiaaw %RS,%RA:Vector Add Signed Modulo Integer to Accumulator Word + signed64 t1, t2; + signed32 al, ah; + al = *rA; + ah = *rAh; + t1 = (signed64)EV_ACCHIGH + (signed64)ah; + t2 = (signed64)EV_ACCLOW + (signed64)al; + EV_SET_REG2_ACC(*rSh, *rS, t1, t2); + //printf("evaddsmiaaw: al %d ah %d t1 %qd t2 %qd\n", al, ah, t1, t2); + //printf("evaddsmiaaw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.1216:EVX:e500:evaddusiaaw %RS,%RA:Vector Add Unsigned Saturate Integer to Accumulator Word + signed64 t1, t2; + unsigned32 al, ah; + int ovl, ovh; + al = *rA; + ah = *rAh; + t1 = (signed64)EV_ACCHIGH + (signed64)ah; + t2 = (signed64)EV_ACCLOW + (signed64)al; + ovh = EV_SAT_P_U32(t1); + ovl = EV_SAT_P_U32(t2); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE(ovh, 0xffffffff, t1), + EV_SATURATE(ovl, 0xffffffff, t2)); + //printf("evaddusiaaw: ovl %d ovh %d al %d ah %d t1 %qd t2 %qd\n", ovl, ovh, al, ah, t1, t2); + //printf("evaddusiaaw: ACC = %08x.%08x; *rSh = %08x; *rS = %08x\n", (int)(ACC >> 32), (int)ACC, *rSh, *rS); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.0,21.1224:EVX:e500:evaddumiaaw %RS,%RA:Vector Add Unsigned Modulo Integer to Accumulator Word + unsigned64 t1, t2; + unsigned32 al, ah; + al = *rA; + ah = *rAh; + t1 = (unsigned64)EV_ACCHIGH + (unsigned64)ah; + t2 = EV_ACCLOW + al; + EV_SET_REG2_ACC(*rSh, *rS, t1, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + + +0.4,6.RS,11.RA,16.0,21.1219:EVX:e500:evsubfssiaaw %RS,%RA:Vector Subtract Signed Saturate Integer to Accumulator Word + signed64 t1, t2; + signed32 al, ah; + int ovl, ovh; + al = *rA; + ah = *rAh; + t1 = (signed64)EV_ACCHIGH - (signed64)ah; + t2 = (signed64)EV_ACCLOW - (signed64)al; + ovh = EV_SAT_P_S32(t1); + ovl = EV_SAT_P_S32(t2); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE_ACC(ovh, t1, 0x80000000, 0x7fffffff, t1), + EV_SATURATE_ACC(ovl, t2, 0x80000000, 0x7fffffff, t2)); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.0,21.1227:EVX:e500:evsubfsmiaaw %RS,%RA:Vector Subtract Signed Modulo Integer to Accumulator Word + signed64 t1, t2; + signed32 al, ah; + al = *rA; + ah = *rAh; + t1 = (signed64)EV_ACCHIGH - (signed64)ah; + t2 = (signed64)EV_ACCLOW - (signed64)al; + EV_SET_REG2_ACC(*rSh, *rS, t1, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.1218:EVX:e500:evsubfusiaaw %RS,%RA:Vector Subtract Unsigned Saturate Integer to Accumulator Word + signed64 t1, t2; + unsigned32 al, ah; + int ovl, ovh; + + al = *rA; + ah = *rAh; + t1 = (signed64)EV_ACCHIGH - (signed64)ah; + t2 = (signed64)EV_ACCLOW - (signed64)al; + ovh = EV_SAT_P_U32(t1); + ovl = EV_SAT_P_U32(t2); + EV_SET_REG2_ACC(*rSh, *rS, EV_SATURATE(ovh, 0, t1), + EV_SATURATE(ovl, 0, t2)); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.0,21.1226:EVX:e500:evsubfumiaaw %RS,%RA:Vector Subtract Unsigned Modulo Integer to Accumulator Word + unsigned64 t1, t2; + unsigned32 al, ah; + al = *rA; + ah = *rAh; + t1 = (unsigned64)EV_ACCHIGH - (unsigned64)ah; + t2 = (unsigned64)EV_ACCLOW - (unsigned64)al; + EV_SET_REG2_ACC(*rSh, *rS, t1, t2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + + +0.4,6.RS,11.RA,16.0,21.1220:EVX:e500:evmra %RS,%RA:Initialize Accumulator + EV_SET_REG2_ACC(*rSh, *rS, *rAh, *rA); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.1222:EVX:e500:evdivws %RS,%RA,%RB:Vector Divide Word Signed + signed32 dividendh, dividendl, divisorh, divisorl; + signed32 w1, w2; + int ovh, ovl; + dividendh = *rAh; + dividendl = *rA; + divisorh = *rBh; + divisorl = *rB; + if (dividendh < 0 && divisorh == 0) { + w1 = 0x80000000; + ovh = 1; + } else if (dividendh > 0 && divisorh == 0) { + w1 = 0x7fffffff; + ovh = 1; + } else if (dividendh == 0x80000000 && divisorh == -1) { + w1 = 0x7fffffff; + ovh = 1; + } else { + w1 = dividendh / divisorh; + ovh = 0; + } + if (dividendl < 0 && divisorl == 0) { + w2 = 0x80000000; + ovl = 1; + } else if (dividendl > 0 && divisorl == 0) { + w2 = 0x7fffffff; + ovl = 1; + } else if (dividendl == 0x80000000 && divisorl == -1) { + w2 = 0x7fffffff; + ovl = 1; + } else { + w2 = dividendl / divisorl; + ovl = 0; + } + EV_SET_REG2(*rSh, *rS, w1, w2); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK, spr_spefscr); + + +0.4,6.RS,11.RA,16.RB,21.1223:EVX:e500:evdivwu %RS,%RA,%RB:Vector Divide Word Unsigned + unsigned32 dividendh, dividendl, divisorh, divisorl; + unsigned32 w1, w2; + int ovh, ovl; + dividendh = *rAh; + dividendl = *rA; + divisorh = *rBh; + divisorl = *rB; + if (divisorh == 0) { + w1 = 0xffffffff; + ovh = 1; + } else { + w1 = dividendh / divisorh; + ovh = 0; + } + if (divisorl == 0) { + w2 = 0xffffffff; + ovl = 1; + } else { + w2 = dividendl / divisorl; + ovl = 0; + } + EV_SET_REG2(*rSh, *rS, w1, w2); + EV_SET_SPEFSCR_OV(ovl, ovh); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK, spr_spefscr); + + +# +# A.2.9 Floating Point SPE Instructions +# + +0.4,6.RS,11.RA,16.0,21.644:EVX:e500:evfsabs %RS,%RA:Vector Floating-Point Absolute Value + unsigned32 w1, w2; + w1 = *rAh & 0x7fffffff; + w2 = *rA & 0x7fffffff; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.645:EVX:e500:evfsnabs %RS,%RA:Vector Floating-Point Negative Absolute Value + unsigned32 w1, w2; + w1 = *rAh | 0x80000000; + w2 = *rA | 0x80000000; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.646:EVX:e500:evfsneg %RS,%RA:Vector Floating-Point Negate + unsigned32 w1, w2; + w1 = *rAh; + w2 = *rA; + w1 = (w1 & 0x7fffffff) | ((~w1) & 0x80000000); + w2 = (w2 & 0x7fffffff) | ((~w2) & 0x80000000); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.640:EVX:e500:evfsadd %RS,%RA,%RB:Vector Floating-Point Add + unsigned32 w1, w2; + w1 = ev_fs_add (*rAh, *rBh, spefscr_finvh, spefscr_fovfh, spefscr_funfh, spefscr_fgh, spefscr_fxh, processor); + w2 = ev_fs_add (*rA, *rB, spefscr_finv, spefscr_fovf, spefscr_funf, spefscr_fgh, spefscr_fxh, processor); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.641:EVX:e500:evfssub %RS,%RA,%RB:Vector Floating-Point Subtract + unsigned32 w1, w2; + w1 = ev_fs_sub (*rAh, *rBh, spefscr_finvh, spefscr_fovfh, spefscr_funfh, spefscr_fgh, spefscr_fxh, processor); + w2 = ev_fs_sub (*rA, *rB, spefscr_finv, spefscr_fovf, spefscr_funf, spefscr_fgh, spefscr_fxh, processor); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.648:EVX:e500:evfsmul %RS,%RA,%RB:Vector Floating-Point Multiply + unsigned32 w1, w2; + w1 = ev_fs_mul (*rAh, *rBh, spefscr_finvh, spefscr_fovfh, spefscr_funfh, spefscr_fgh, spefscr_fxh, processor); + w2 = ev_fs_mul (*rA, *rB, spefscr_finv, spefscr_fovf, spefscr_funf, spefscr_fgh, spefscr_fxh, processor); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.649:EVX:e500:evfsdiv %RS,%RA,%RB:Vector Floating-Point Divide + signed32 w1, w2; + w1 = ev_fs_div (*rAh, *rBh, spefscr_finvh, spefscr_fovfh, spefscr_funfh, spefscr_fdbzh, spefscr_fgh, spefscr_fxh, processor); + w2 = ev_fs_div (*rA, *rB, spefscr_finv, spefscr_fovf, spefscr_funf, spefscr_fdbz, spefscr_fg, spefscr_fx, processor); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.BF,9./,11.RA,16.RB,21.652:EVX:e500:evfscmpgt %BF,%RA,%RB:Vector Floating-Point Compare Greater Than + sim_fpu al, ah, bl, bh; + int w, ch, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&ah, *rAh); + sim_fpu_32to (&bl, *rB); + sim_fpu_32to (&bh, *rBh); + if (EV_IS_INFDENORMNAN(&al) || EV_IS_INFDENORMNAN(&bl)) + EV_SET_SPEFSCR_BITS(spefscr_finv); + if (EV_IS_INFDENORMNAN(&ah) || EV_IS_INFDENORMNAN(&bh)) + EV_SET_SPEFSCR_BITS(spefscr_finvh); + if (sim_fpu_is_gt(&ah, &bh)) + ch = 1; + else + ch = 0; + if (sim_fpu_is_gt(&al, &bl)) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_SPR(0, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.BF,9./,11.RA,16.RB,21.653:EVX:e500:evfscmplt %BF,%RA,%RB:Vector Floating-Point Compare Less Than + sim_fpu al, ah, bl, bh; + int w, ch, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&ah, *rAh); + sim_fpu_32to (&bl, *rB); + sim_fpu_32to (&bh, *rBh); + if (EV_IS_INFDENORMNAN(&al) || EV_IS_INFDENORMNAN(&bl)) + EV_SET_SPEFSCR_BITS(spefscr_finv); + if (EV_IS_INFDENORMNAN(&ah) || EV_IS_INFDENORMNAN(&bh)) + EV_SET_SPEFSCR_BITS(spefscr_finvh); + if (sim_fpu_is_lt(&ah, &bh)) + ch = 1; + else + ch = 0; + if (sim_fpu_is_lt(&al, &bl)) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_SPR(0, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.BF,9./,11.RA,16.RB,21.654:EVX:e500:evfscmpeq %BF,%RA,%RB:Vector Floating-Point Compare Equal + sim_fpu al, ah, bl, bh; + int w, ch, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&ah, *rAh); + sim_fpu_32to (&bl, *rB); + sim_fpu_32to (&bh, *rBh); + if (EV_IS_INFDENORMNAN(&al) || EV_IS_INFDENORMNAN(&bl)) + EV_SET_SPEFSCR_BITS(spefscr_finv); + if (EV_IS_INFDENORMNAN(&ah) || EV_IS_INFDENORMNAN(&bh)) + EV_SET_SPEFSCR_BITS(spefscr_finvh); + if (sim_fpu_is_eq(&ah, &bh)) + ch = 1; + else + ch = 0; + if (sim_fpu_is_eq(&al, &bl)) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_SPR(0, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.BF,9./,11.RA,16.RB,21.668:EVX:e500:evfststgt %BF,%RA,%RB:Vector Floating-Point Test Greater Than + sim_fpu al, ah, bl, bh; + int w, ch, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&ah, *rAh); + sim_fpu_32to (&bl, *rB); + sim_fpu_32to (&bh, *rBh); + if (sim_fpu_is_gt(&ah, &bh)) + ch = 1; + else + ch = 0; + if (sim_fpu_is_gt(&al, &bl)) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.BF,9./,11.RA,16.RB,21.669:EVX:e500:evfststlt %BF,%RA,%RB:Vector Floating-Point Test Less Than + sim_fpu al, ah, bl, bh; + int w, ch, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&ah, *rAh); + sim_fpu_32to (&bl, *rB); + sim_fpu_32to (&bh, *rBh); + if (sim_fpu_is_lt(&ah, &bh)) + ch = 1; + else + ch = 0; + if (sim_fpu_is_lt(&al, &bl)) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.BF,9./,11.RA,16.RB,21.670:EVX:e500:evfststeq %BF,%RA,%RB:Vector Floating-Point Test Equal + sim_fpu al, ah, bl, bh; + int w, ch, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&ah, *rAh); + sim_fpu_32to (&bl, *rB); + sim_fpu_32to (&bh, *rBh); + if (sim_fpu_is_eq(&ah, &bh)) + ch = 1; + else + ch = 0; + if (sim_fpu_is_eq(&al, &bl)) + cl = 1; + else + cl = 0; + w = ch << 3 | cl << 2 | (ch | cl) << 1 | (ch & cl); + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.RS,11.0,16.RB,21.656:EVX:e500:evfscfui %RS,%RB:Vector Convert Floating-Point from Unsigned Integer + unsigned32 f, w1, w2; + sim_fpu b; + + sim_fpu_u32to (&b, *rBh, sim_fpu_round_default); + sim_fpu_to32 (&w1, &b); + sim_fpu_u32to (&b, *rB, sim_fpu_round_default); + sim_fpu_to32 (&w2, &b); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.664:EVX:e500:evfsctuiz %RS,%RB:Vector Convert Floating-Point to Unsigned Integer with Round toward Zero + unsigned32 w1, w2; + sim_fpu b; + + sim_fpu_32to (&b, *rBh); + sim_fpu_to32u (&w1, &b, sim_fpu_round_zero); + sim_fpu_32to (&b, *rB); + sim_fpu_to32u (&w2, &b, sim_fpu_round_zero); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.657:EVX:e500:evfscfsi %RS,%RB:Vector Convert Floating-Point from Signed Integer + signed32 w1, w2; + sim_fpu b, x, y; + + sim_fpu_i32to (&b, *rBh, sim_fpu_round_default); + sim_fpu_to32 (&w1, &b); + sim_fpu_i32to (&b, *rB, sim_fpu_round_default); + sim_fpu_to32 (&w2, &b); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.658:EVX:e500:evfscfuf %RS,%RB:Vector Convert Floating-Point from Unsigned Fraction + unsigned32 w1, w2, bh, bl; + sim_fpu b, x, y; + bh = *rBh; + if (bh == 0xffffffff) + sim_fpu_to32 (&w1, &sim_fpu_one); + else { + sim_fpu_u64to (&x, 0x100000000, sim_fpu_round_default); + sim_fpu_u32to (&y, bh, sim_fpu_round_default); + sim_fpu_div (&b, &y, &x); + sim_fpu_to32 (&w1, &b); + } + bl = *rB; + if (bl == 0xffffffff) + sim_fpu_to32 (&w2, &sim_fpu_one); + else { + sim_fpu_u64to (&x, 0x100000000, sim_fpu_round_default); + sim_fpu_u32to (&y, bl, sim_fpu_round_default); + sim_fpu_div (&b, &y, &x); + sim_fpu_to32 (&w2, &b); + } + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.659:EVX:e500:evfscfsf %RS,%RB:Vector Convert Floating-Point from Signed Fraction + unsigned32 w1, w2; + sim_fpu b, x, y; + + sim_fpu_u32to (&x, 0x80000000, sim_fpu_round_default); + sim_fpu_i32to (&y, *rBh, sim_fpu_round_default); + sim_fpu_div (&b, &y, &x); + sim_fpu_to32 (&w1, &b); + + sim_fpu_u32to (&x, 0x80000000, sim_fpu_round_default); + sim_fpu_i32to (&y, *rB, sim_fpu_round_default); + sim_fpu_div (&b, &y, &x); + sim_fpu_to32 (&w2, &b); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.660:EVX:e500:evfsctui %RS,%RB:Vector Convert Floating-Point to Unsigned Integer + unsigned32 w1, w2; + sim_fpu b; + + sim_fpu_32to (&b, *rBh); + sim_fpu_to32u (&w1, &b, sim_fpu_round_default); + sim_fpu_32to (&b, *rB); + sim_fpu_to32u (&w2, &b, sim_fpu_round_default); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.661:EVX:e500:evfsctsi %RS,%RB:Vector Convert Floating-Point to Signed Integer + signed32 w1, w2; + sim_fpu b; + + sim_fpu_32to (&b, *rBh); + sim_fpu_to32i (&w1, &b, sim_fpu_round_default); + sim_fpu_32to (&b, *rB); + sim_fpu_to32i (&w2, &b, sim_fpu_round_default); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.666:EVX:e500:evfsctsiz %RS,%RB:Vector Convert Floating-Point to Signed Integer with Round toward Zero + signed32 w1, w2; + sim_fpu b; + + sim_fpu_32to (&b, *rBh); + sim_fpu_to32i (&w1, &b, sim_fpu_round_zero); + sim_fpu_32to (&b, *rB); + sim_fpu_to32i (&w2, &b, sim_fpu_round_zero); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.662:EVX:e500:evfsctuf %RS,%RB:Vector Convert Floating-Point to Unsigned Fraction + unsigned32 w1, w2; + sim_fpu b, x, y; + + sim_fpu_u64to (&x, 0x100000000, sim_fpu_round_default); + sim_fpu_32to (&y, *rBh); + sim_fpu_mul (&b, &y, &x); + sim_fpu_to32u (&w1, &b, sim_fpu_round_default); + + sim_fpu_u64to (&x, 0x100000000, sim_fpu_round_default); + sim_fpu_32to (&y, *rB); + sim_fpu_mul (&b, &y, &x); + sim_fpu_to32u (&w2, &b, sim_fpu_round_default); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.663:EVX:e500:evfsctsf %RS,%RB:Vector Convert Floating-Point to Signed Fraction + signed32 w1, w2; + sim_fpu b, x, y; + + sim_fpu_32to (&y, *rBh); + sim_fpu_u32to (&x, 0x80000000, sim_fpu_round_default); + sim_fpu_mul (&b, &y, &x); + sim_fpu_to32i (&w1, &b, sim_fpu_round_near); + + sim_fpu_32to (&y, *rB); + sim_fpu_u32to (&x, 0x80000000, sim_fpu_round_default); + sim_fpu_mul (&b, &y, &x); + sim_fpu_to32i (&w2, &b, sim_fpu_round_near); + + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.0,21.708:EVX:e500:efsabs %RS,%RA:Floating-Point Absolute Value + unsigned32 w1, w2; + w1 = *rSh; + w2 = *rA & 0x7fffffff; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.709:EVX:e500:efsnabs %RS,%RA:Floating-Point Negative Absolute Value + unsigned32 w1, w2; + w1 = *rSh; + w2 = *rA | 0x80000000; + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.0,21.710:EVX:e500:efsneg %RS,%RA:Floating-Point Negate + unsigned32 w1, w2; + w1 = *rSh; + w2 = (*rA & 0x7fffffff) | ((~*rA) & 0x80000000); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK, 0); + +0.4,6.RS,11.RA,16.RB,21.704:EVX:e500:efsadd %RS,%RA,%RB:Floating-Point Add + unsigned32 w; + w = ev_fs_add (*rA, *rB, spefscr_finv, spefscr_fovf, spefscr_funf, spefscr_fgh, spefscr_fxh, processor); + EV_SET_REG(*rS, w); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.705:EVX:e500:efssub %RS,%RA,%RB:Floating-Point Subtract + unsigned32 w; + w = ev_fs_sub (*rA, *rB, spefscr_finv, spefscr_fovf, spefscr_funf, spefscr_fgh, spefscr_fxh, processor); + EV_SET_REG(*rS, w); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.712:EVX:e500:efsmul %RS,%RA,%RB:Floating-Point Multiply + unsigned32 w; + w = ev_fs_mul (*rA, *rB, spefscr_finv, spefscr_fovf, spefscr_funf, spefscr_fgh, spefscr_fxh, processor); + EV_SET_REG(*rS, w); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.RS,11.RA,16.RB,21.713:EVX:e500:efsdiv %RS,%RA,%RB:Floating-Point Divide + unsigned32 w; + w = ev_fs_div (*rA, *rB, spefscr_finv, spefscr_fovf, spefscr_funf, spefscr_fdbz, spefscr_fg, spefscr_fx, processor); + EV_SET_REG(*rS, w); + PPC_INSN_INT_SPR(RS_BITMASK, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.BF,9./,11.RA,16.RB,21.716:EVX:e500:efscmpgt %BF,%RA,%RB:Floating-Point Compare Greater Than + sim_fpu a, b; + int w, cl; + sim_fpu_32to (&a, *rA); + sim_fpu_32to (&b, *rB); + if (EV_IS_INFDENORMNAN(&a) || EV_IS_INFDENORMNAN(&b)) + EV_SET_SPEFSCR_BITS(spefscr_finv); + if (sim_fpu_is_gt(&a, &b)) + cl = 1; + else + cl = 0; + w = cl << 2 | cl << 1; + CR_SET(BF, w); + PPC_INSN_INT_SPR(0, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.BF,9./,11.RA,16.RB,21.717:EVX:e500:efscmplt %BF,%RA,%RB:Floating-Point Compare Less Than + sim_fpu al, bl; + int w, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&bl, *rB); + if (EV_IS_INFDENORMNAN(&al) || EV_IS_INFDENORMNAN(&bl)) + EV_SET_SPEFSCR_BITS(spefscr_finv); + if (sim_fpu_is_lt(&al, &bl)) + cl = 1; + else + cl = 0; + w = cl << 2 | cl << 1; + CR_SET(BF, w); + PPC_INSN_INT_SPR(0, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.BF,9./,11.RA,16.RB,21.718:EVX:e500:efscmpeq %BF,%RA,%RB:Floating-Point Compare Equal + sim_fpu al, bl; + int w, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&bl, *rB); + if (EV_IS_INFDENORMNAN(&al) || EV_IS_INFDENORMNAN(&bl)) + EV_SET_SPEFSCR_BITS(spefscr_finv); + if (sim_fpu_is_eq(&al, &bl)) + cl = 1; + else + cl = 0; + w = cl << 2 | cl << 1; + CR_SET(BF, w); + PPC_INSN_INT_SPR(0, RA_BITMASK | RB_BITMASK, spr_spefscr); + +0.4,6.BF,9./,11.RA,16.RB,21.732:EVX:e500:efststgt %BF,%RA,%RB:Floating-Point Test Greater Than + sim_fpu al, bl; + int w, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&bl, *rB); + if (sim_fpu_is_gt(&al, &bl)) + cl = 1; + else + cl = 0; + w = cl << 2 | cl << 1; + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.BF,9./,11.RA,16.RB,21.733:EVX:e500:efststlt %BF,%RA,%RB:Floating-Point Test Less Than + sim_fpu al, bl; + int w, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&bl, *rB); + if (sim_fpu_is_lt(&al, &bl)) + cl = 1; + else + cl = 0; + w = cl << 2 | cl << 1; + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.BF,9./,11.RA,16.RB,21.734:EVX:e500:efststeq %BF,%RA,%RB:Floating-Point Test Equal + sim_fpu al, bl; + int w, cl; + sim_fpu_32to (&al, *rA); + sim_fpu_32to (&bl, *rB); + if (sim_fpu_is_eq(&al, &bl)) + cl = 1; + else + cl = 0; + w = cl << 2 | cl << 1; + CR_SET(BF, w); + PPC_INSN_INT_CR(0, RA_BITMASK | RB_BITMASK, BF_BITMASK); + +0.4,6.RS,11.0,16.RB,21.721:EVX:e500:efscfsi %RS,%RB:Convert Floating-Point from Signed Integer + signed32 f, w1, w2; + sim_fpu b; + w1 = *rSh; + sim_fpu_i32to (&b, *rB, sim_fpu_round_default); + sim_fpu_to32 (&w2, &b); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.720:EVX:e500:efscfui %RS,%RB:Convert Floating-Point from Unsigned Integer + unsigned32 w1, w2; + sim_fpu b; + w1 = *rSh; + sim_fpu_u32to (&b, *rB, sim_fpu_round_default); + sim_fpu_to32 (&w2, &b); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.723:EVX:e500:efscfsf %RS,%RB:Convert Floating-Point from Signed Fraction + unsigned32 w1, w2; + sim_fpu b, x, y; + w1 = *rSh; + sim_fpu_u32to (&x, 0x80000000, sim_fpu_round_default); + sim_fpu_i32to (&y, *rB, sim_fpu_round_default); + sim_fpu_div (&b, &y, &x); + sim_fpu_to32 (&w2, &b); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.722:EVX:e500:efscfuf %RS,%RB:Convert Floating-Point from Unsigned Fraction + unsigned32 w1, w2, bl; + sim_fpu b, x, y; + w1 = *rSh; + bl = *rB; + if (bl == 0xffffffff) + sim_fpu_to32 (&w2, &sim_fpu_one); + else { + sim_fpu_u64to (&x, 0x100000000, sim_fpu_round_default); + sim_fpu_u32to (&y, bl, sim_fpu_round_default); + sim_fpu_div (&b, &y, &x); + sim_fpu_to32 (&w2, &b); + } + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.725:EVX:e500:efsctsi %RS,%RB:Convert Floating-Point to Signed Integer + signed64 temp; + signed32 w1, w2; + sim_fpu b; + w1 = *rSh; + sim_fpu_32to (&b, *rB); + sim_fpu_to32i (&w2, &b, sim_fpu_round_default); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.730:EVX:e500:efsctsiz %RS,%RB:Convert Floating-Point to Signed Integer with Round toward Zero + signed64 temp; + signed32 w1, w2; + sim_fpu b; + w1 = *rSh; + sim_fpu_32to (&b, *rB); + sim_fpu_to32i (&w2, &b, sim_fpu_round_zero); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.724:EVX:e500:efsctui %RS,%RB:Convert Floating-Point to Unsigned Integer + unsigned64 temp; + signed32 w1, w2; + sim_fpu b; + w1 = *rSh; + sim_fpu_32to (&b, *rB); + sim_fpu_to32u (&w2, &b, sim_fpu_round_default); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.728:EVX:e500:efsctuiz %RS,%RB:Convert Floating-Point to Unsigned Integer with Round toward Zero + unsigned64 temp; + signed32 w1, w2; + sim_fpu b; + w1 = *rSh; + sim_fpu_32to (&b, *rB); + sim_fpu_to32u (&w2, &b, sim_fpu_round_zero); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.727:EVX:e500:efsctsf %RS,%RB:Convert Floating-Point to Signed Fraction + unsigned32 w1, w2; + sim_fpu b, x, y; + w1 = *rSh; + sim_fpu_32to (&y, *rB); + sim_fpu_u32to (&x, 0x80000000, sim_fpu_round_default); + sim_fpu_mul (&b, &y, &x); + sim_fpu_to32i (&w2, &b, sim_fpu_round_default); + sim_fpu_to32 (&w2, &b); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + +0.4,6.RS,11.0,16.RB,21.726:EVX:e500:efsctuf %RS,%RB:Convert Floating-Point to Unsigned Fraction + unsigned32 w1, w2; + sim_fpu b, x, y; + w1 = *rSh; + sim_fpu_u64to (&x, 0x100000000, sim_fpu_round_default); + sim_fpu_32to (&y, *rB); + sim_fpu_mul (&b, &y, &x); + sim_fpu_to32u (&w2, &b, sim_fpu_round_default); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, RB_BITMASK, 0); + + +# +# A.2.10 Vector Load/Store Instructions +# + +0.4,6.RS,11.RA,16.UIMM,21.769:EVX:e500:evldd %RS,%RA,%UIMM:Vector Load Double Word into Double Word + unsigned64 m; + unsigned_word b; + unsigned_word EA; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + m = MEM(unsigned, EA, 8); + EV_SET_REG1(*rSh, *rS, m); + //printf("evldd(%d<-%d + %u): m %08x.%08x, *rSh %x *rS %x\n", RS, RA, UIMM, (int)(m >> 32), (int)m, *rSh, *rS); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.768:EVX:e500:evlddx %RS,%RA,%RB:Vector Load Double Word into Double Word Indexed + unsigned64 m; + unsigned_word b; + unsigned_word EA; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + m = MEM(unsigned, EA, 8); + EV_SET_REG1(*rSh, *rS, m); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.771:EVX:e500:evldw %RS,%RA,%UIMM:Vector Load Double into Two Words + unsigned_word b; + unsigned_word EA; + unsigned32 w1, w2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + w1 = MEM(unsigned, EA, 4); + w2 = MEM(unsigned, EA + 4, 4); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.770:EVX:e500:evldwx %RS,%RA,%RB:Vector Load Double into Two Words Indexed + unsigned_word b; + unsigned_word EA; + unsigned32 w1, w2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + w1 = MEM(unsigned, EA, 4); + w2 = MEM(unsigned, EA + 4, 4); + EV_SET_REG2(*rSh, *rS, w1, w2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.773:EVX:e500:evldh %RS,%RA,%UIMM:Vector Load Double into 4 Half Words + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + h1 = MEM(unsigned, EA, 2); + h2 = MEM(unsigned, EA + 2, 2); + h3 = MEM(unsigned, EA + 4, 2); + h4 = MEM(unsigned, EA + 6, 2); + EV_SET_REG4(*rSh, *rS, h1, h2, h3, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.772:EVX:e500:evldhx %RS,%RA,%RB:Vector Load Double into 4 Half Words Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h1 = MEM(unsigned, EA, 2); + h2 = MEM(unsigned, EA + 2, 2); + h3 = MEM(unsigned, EA + 4, 2); + h4 = MEM(unsigned, EA + 6, 2); + EV_SET_REG4(*rSh, *rS, h1, h2, h3, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.785:EVX:e500:evlwhe %RS,%RA,%UIMM:Vector Load Word into Two Half Words Even + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 2); + h1 = MEM(unsigned, EA, 2); + h2 = 0; + h3 = MEM(unsigned, EA + 2, 2); + h4 = 0; + EV_SET_REG4(*rSh, *rS, h1, h2, h3, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.784:EVX:e500:evlwhex %RS,%RA,%RB:Vector Load Word into Two Half Words Even Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h1 = MEM(unsigned, EA, 2); + h2 = 0; + h3 = MEM(unsigned, EA + 2, 2); + h4 = 0; + EV_SET_REG4(*rSh, *rS, h1, h2, h3, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.789:EVX:e500:evlwhou %RS,%RA,%UIMM:Vector Load Word into Two Half Words Odd Unsigned zero-extended + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 2); + h1 = 0; + h2 = MEM(unsigned, EA, 2); + h3 = 0; + h4 = MEM(unsigned, EA + 2, 2); + EV_SET_REG4(*rSh, *rS, h1, h2, h3, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.788:EVX:e500:evlwhoux %RS,%RA,%RB:Vector Load Word into Two Half Words Odd Unsigned Indexed zero-extended + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h1 = 0; + h2 = MEM(unsigned, EA, 2); + h3 = 0; + h4 = MEM(unsigned, EA + 2, 2); + EV_SET_REG4(*rSh, *rS, h1, h2, h3, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.791:EVX:e500:evlwhos %RS,%RA,%UIMM:Vector Load Word into Half Words Odd Signed with sign extension + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 2); + h2 = MEM(unsigned, EA, 2); + if (h2 & 0x8000) + h1 = 0xffff; + else + h1 = 0; + h4 = MEM(unsigned, EA + 2, 2); + if (h4 & 0x8000) + h3 = 0xffff; + else + h3 = 0; + EV_SET_REG4(*rSh, *rS, h1, h2, h3, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.790:EVX:e500:evlwhosx %RS,%RA,%RB:Vector Load Word into Half Words Odd Signed Indexed with sign extension + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h2 = MEM(unsigned, EA, 2); + if (h2 & 0x8000) + h1 = 0xffff; + else + h1 = 0; + h4 = MEM(unsigned, EA + 2, 2); + if (h4 & 0x8000) + h3 = 0xffff; + else + h3 = 0; + EV_SET_REG4(*rSh, *rS, h1, h2, h3, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.793:EVX:e500:evlwwsplat %RS,%RA,%UIMM:Vector Load Word into Word and Splat + unsigned_word b; + unsigned_word EA; + unsigned32 w1; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 2); + w1 = MEM(unsigned, EA, 4); + EV_SET_REG2(*rSh, *rS, w1, w1); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.792:EVX:e500:evlwwsplatx %RS,%RA,%RB:Vector Load Word into Word and Splat Indexed + unsigned_word b; + unsigned_word EA; + unsigned32 w1; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + w1 = MEM(unsigned, EA, 4); + EV_SET_REG2(*rSh, *rS, w1, w1); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.797:EVX:e500:evlwhsplat %RS,%RA,%UIMM:Vector Load Word into 2 Half Words and Splat + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 2); + h1 = MEM(unsigned, EA, 2); + h2 = MEM(unsigned, EA + 2, 2); + EV_SET_REG4(*rSh, *rS, h1, h1, h2, h2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.796:EVX:e500:evlwhsplatx %RS,%RA,%RB:Vector Load Word into 2 Half Words and Splat Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h1 = MEM(unsigned, EA, 2); + h2 = MEM(unsigned, EA + 2, 2); + EV_SET_REG4(*rSh, *rS, h1, h1, h2, h2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.777:EVX:e500:evlhhesplat %RS,%RA,%UIMM:Vector Load Half Word into Half Words Even and Splat + unsigned_word b; + unsigned_word EA; + unsigned16 h; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 1); + h = MEM(unsigned, EA, 2); + EV_SET_REG4(*rSh, *rS, h, 0, h, 0); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.776:EVX:e500:evlhhesplatx %RS,%RA,%RB:Vector Load Half Word into Half Words Even and Splat Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h = MEM(unsigned, EA, 2); + EV_SET_REG4(*rSh, *rS, h, 0, h, 0); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.781:EVX:e500:evlhhousplat %RS,%RA,%UIMM:Vector Load Half Word into Half Word Odd Unsigned and Splat + unsigned_word b; + unsigned_word EA; + unsigned16 h; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 1); + h = MEM(unsigned, EA, 2); + EV_SET_REG4(*rSh, *rS, 0, h, 0, h); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.780:EVX:e500:evlhhousplatx %RS,%RA,%RB:Vector Load Half Word into Half Word Odd Unsigned and Splat Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h = MEM(unsigned, EA, 2); + EV_SET_REG4(*rSh, *rS, 0, h, 0, h); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.783:EVX:e500:evlhhossplat %RS,%RA,%UIMM:Vector Load Half Word into Half Word Odd Signed and Splat + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 1); + h2 = MEM(unsigned, EA, 2); + if (h2 & 0x8000) + h1 = 0xffff; + else + h1 = 0; + EV_SET_REG4(*rSh, *rS, h1, h2, h1, h2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.782:EVX:e500:evlhhossplatx %RS,%RA,%RB:Vector Load Half Word into Half Word Odd Signed and Splat Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h2 = MEM(unsigned, EA, 2); + if (h2 & 0x8000) + h1 = 0xffff; + else + h1 = 0; + EV_SET_REG4(*rSh, *rS, h1, h2, h1, h2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + + +0.4,6.RS,11.RA,16.UIMM,21.801:EVX:e500:evstdd %RS,%RA,%UIMM:Vector Store Double of Double + unsigned_word b; + unsigned_word EA; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + STORE(EA, 4, (*rSh)); + STORE(EA + 4, 4, (*rS)); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.800:EVX:e500:evstddx %RS,%RA,%RB:Vector Store Double of Double Indexed + unsigned_word b; + unsigned_word EA; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + STORE(EA, 4, (*rSh)); + STORE(EA + 4, 4, (*rS)); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.803:EVX:e500:evstdw %RS,%RA,%UIMM:Vector Store Double of Two Words + unsigned_word b; + unsigned_word EA; + unsigned32 w1, w2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + w1 = *rSh; + w2 = *rS; + STORE(EA + 0, 4, w1); + STORE(EA + 4, 4, w2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.802:EVX:e500:evstdwx %RS,%RA,%RB:Vector Store Double of Two Words Indexed + unsigned_word b; + unsigned_word EA; + unsigned32 w1, w2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + w1 = *rSh; + w2 = *rS; + STORE(EA + 0, 4, w1); + STORE(EA + 4, 4, w2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.805:EVX:e500:evstdh %RS,%RA,%UIMM:Vector Store Double of Four Half Words + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + h1 = EV_HIHALF(*rSh); + h2 = EV_LOHALF(*rSh); + h3 = EV_HIHALF(*rS); + h4 = EV_LOHALF(*rS); + STORE(EA + 0, 2, h1); + STORE(EA + 2, 2, h2); + STORE(EA + 4, 2, h3); + STORE(EA + 6, 2, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.804:EVX:e500:evstdhx %RS,%RA,%RB:Vector Store Double of Four Half Words Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2, h3, h4; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h1 = EV_HIHALF(*rSh); + h2 = EV_LOHALF(*rSh); + h3 = EV_HIHALF(*rS); + h4 = EV_LOHALF(*rS); + STORE(EA + 0, 2, h1); + STORE(EA + 2, 2, h2); + STORE(EA + 4, 2, h3); + STORE(EA + 6, 2, h4); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.825:EVX:e500:evstwwe %RS,%RA,%UIMM:Vector Store Word of Word from Even + unsigned_word b; + unsigned_word EA; + unsigned32 w; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + w = *rSh; + STORE(EA, 4, w); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.824:EVX:e500:evstwwex %RS,%RA,%RB:Vector Store Word of Word from Even Indexed + unsigned_word b; + unsigned_word EA; + unsigned32 w; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + w = *rSh; + STORE(EA, 4, w); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.829:EVX:e500:evstwwo %RS,%RA,%UIMM:Vector Store Word of Word from Odd + unsigned_word b; + unsigned_word EA; + unsigned32 w; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + w = *rS; + STORE(EA, 4, w); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.828:EVX:e500:evstwwox %RS,%RA,%RB:Vector Store Word of Word from Odd Indexed + unsigned_word b; + unsigned_word EA; + unsigned32 w; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + w = *rS; + STORE(EA, 4, w); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.817:EVX:e500:evstwhe %RS,%RA,%UIMM:Vector Store Word of Two Half Words from Even + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + h1 = EV_HIHALF(*rSh); + h2 = EV_HIHALF(*rS); + STORE(EA + 0, 2, h1); + STORE(EA + 2, 2, h2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.816:EVX:e500:evstwhex %RS,%RA,%RB:Vector Store Word of Two Half Words from Even Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h1 = EV_HIHALF(*rSh); + h2 = EV_HIHALF(*rS); + STORE(EA + 0, 2, h1); + STORE(EA + 2, 2, h2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + +0.4,6.RS,11.RA,16.UIMM,21.821:EVX:e500:evstwho %RS,%RA,%UIMM:Vector Store Word of Two Half Words from Odd + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + (UIMM << 3); + h1 = EV_LOHALF(*rSh); + h2 = EV_LOHALF(*rS); + STORE(EA + 0, 2, h1); + STORE(EA + 2, 2, h2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1), 0); + +0.4,6.RS,11.RA,16.RB,21.820:EVX:e500:evstwhox %RS,%RA,%RB:Vector Store Word of Two Half Words from Odd Indexed + unsigned_word b; + unsigned_word EA; + unsigned16 h1, h2; + if (RA_is_0) b = 0; + else b = *rA; + EA = b + *rB; + h1 = EV_LOHALF(*rSh); + h2 = EV_LOHALF(*rS); + STORE(EA + 0, 2, h1); + STORE(EA + 2, 2, h2); + PPC_INSN_INT(RS_BITMASK, (RA_BITMASK & ~1) | RB_BITMASK, 0); + + +# +# 4.5.1 Integer Select Instruction +# + +0.31,6.RS,11.RA,16.RB,21.CRB,26.30:X:e500:isel %RS,%RA,%RB,%CRB:Integer Select + if (CR & (1 << (31 - (unsigned)CRB))) + if (RA_is_0) + EV_SET_REG1(*rSh, *rS, 0); + else + EV_SET_REG2(*rSh, *rS, *rAh, *rA); + else + EV_SET_REG2(*rSh, *rS, *rBh, *rB); + PPC_INSN_INT(RS_BITMASK, RA_BITMASK | RB_BITMASK, 0); diff --git a/sim/ppc/e500_expression.h b/sim/ppc/e500_expression.h new file mode 100644 index 0000000..c634a1c --- /dev/null +++ b/sim/ppc/e500_expression.h @@ -0,0 +1,173 @@ +/* e500 expression macros, for PSIM, the PowerPC simulator. + + Copyright 2003 Free Software Foundation, Inc. + + Contributed by Red Hat Inc; developed under contract from Motorola. + Written by matthew green <mrg@redhat.com>. + + This file is part of GDB. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 2 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 59 Temple Place - Suite 330, + Boston, MA 02111-1307, USA. */ + +/* e500 register dance */ +#define EV_SET_REG4(sh, sl, h0, h1, h2, h3) do { \ + (sh) = (((h0) & 0xffff) << 16) | ((h1) & 0xffff); \ + (sl) = (((h2) & 0xffff) << 16) | ((h3) & 0xffff); \ +} while (0) +#define EV_SET_REG4_ACC(sh, sl, h0, h1, h2, h3) do { \ + (sh) = (((h0) & 0xffff) << 16) | ((h1) & 0xffff); \ + (sl) = (((h2) & 0xffff) << 16) | ((h3) & 0xffff); \ + ACC = ((unsigned64)(sh) << 32) | (sl & 0xffffffff); \ +} while (0) + +#define EV_SET_REG2(sh, sl, dh, dl) do { \ + (sh) = (dh) & 0xffffffff; \ + (sl) = (dl) & 0xffffffff; \ +} while (0) +#define EV_SET_REG2_ACC(sh, sl, dh, dl) do { \ + (sh) = (dh) & 0xffffffff; \ + (sl) = (dl) & 0xffffffff; \ + ACC = ((unsigned64)(sh) << 32) | ((sl) & 0xffffffff); \ +} while (0) + +#define EV_SET_REG1(sh, sl, d) do { \ + (sh) = ((unsigned64)(d) >> 32) & 0xffffffff; \ + (sl) = (d) & 0xffffffff; \ +} while (0) +#define EV_SET_REG1_ACC(sh, sl, d) do { \ + (sh) = ((unsigned64)(d) >> 32) & 0xffffffff; \ + (sl) = (d) & 0xffffffff; \ + ACC = (d); \ +} while (0) + +#define EV_SET_REG(s, d) do { \ + (s) = (d) & 0xffffffff; \ +} while (0) + +/* get the low or high half word of a word */ +#define EV_LOHALF(x) ((unsigned32)(x) & 0xffff) +#define EV_HIHALF(x) (((unsigned32)(x) >> 16) & 0xffff) + +/* partially visible accumulator accessors */ +#define EV_SET_ACC(rh, rl) \ + ACC = ((unsigned64)(rh) << 32) | ((rl) & 0xffffffff) + +#define EV_ACCLOW (ACC & 0xffffffff) +#define EV_ACCHIGH ((ACC >> 32) & 0xffffffff) + +/* bit manipulation macros needed for e500 SPE */ +#define EV_BITREVERSE16(x) \ + (((x) & 0x0001) << 15) \ + | (((x) & 0x0002) << 13) \ + | (((x) & 0x0004) << 11) \ + | (((x) & 0x0008) << 9) \ + | (((x) & 0x0010) << 7) \ + | (((x) & 0x0020) << 5) \ + | (((x) & 0x0040) << 3) \ + | (((x) & 0x0080) << 1) \ + | (((x) & 0x0100) >> 1) \ + | (((x) & 0x0200) >> 3) \ + | (((x) & 0x0400) >> 5) \ + | (((x) & 0x0800) >> 7) \ + | (((x) & 0x1000) >> 9) \ + | (((x) & 0x2000) >> 11) \ + | (((x) & 0x4000) >> 13) \ + | (((x) & 0x8000) >> 15) + +/* saturation helpers */ +#define EV_MUL16_SSF(a,b) ((signed64)((signed32)(signed16)(a) * (signed32)(signed16)(b)) << 1) +/* this one loses the top sign bit; be careful */ +#define EV_MUL32_SSF(a,b) (((signed64)(signed32)(a) * (signed64)(signed32)(b)) << 1) +#define EV_SAT_P_S32(x) ((((signed64)(x)) < -0x80000000LL) || (((signed64)(x)) > 0x7fffffffLL)) +#define EV_SAT_P_U32(x) ((((signed64)(x)) < -0LL) || (((signed64)(x)) > 0xffffffffLL)) + +#define EV_SATURATE(flag, sat_val, val) \ + ((flag) ? (sat_val) : (val)) + +#define EV_SATURATE_ACC(flag, sign, negative_sat_val, positive_sat_val, val) \ + ((flag) ? ((((sign) >> 63) & 1) ? (negative_sat_val) : (positive_sat_val)) : (val)) + +/* SPEFSCR handling. */ + +/* These bits must be clear. */ +#define EV_SPEFSCR_MASK (BIT(40) | BIT(41) | spefscr_mode | BIT(56)) + +/* The Inexact and Divide by zero sticky bits are based on others. */ +#define EV_SET_SPEFSCR(bits) do { \ + int finxs = (bits) & (spefscr_fgh|spefscr_fxh|spefscr_fg|spefscr_fx); \ + int fdbzs = (bits) & (spefscr_fdbzh|spefscr_fdbz); \ + SPREG(spr_spefscr) = ((bits) & ~EV_SPEFSCR_MASK) | \ + (finxs ? spefscr_finxs : 0) | \ + (fdbzs ? spefscr_fdbzs : 0); \ +} while (0) + +#define EV_SET_SPEFSCR_BITS(s) \ + EV_SET_SPEFSCR(SPREG(spr_spefscr) | (s)) + +#define EV_SET_SPEFSCR_OV(l,h) do { \ + unsigned32 _sPefScR = SPREG(spr_spefscr); \ + if (l) \ + _sPefScR |= spefscr_ov | spefscr_sov; \ + else \ + _sPefScR &= ~spefscr_ov; \ + if (h) \ + _sPefScR |= spefscr_ovh | spefscr_sovh; \ + else \ + _sPefScR &= ~spefscr_ovh; \ + EV_SET_SPEFSCR(_sPefScR); \ +} while (0) + +/* SPE floating point helpers. */ + +#define EV_PMAX 0x7f7fffff +#define EV_NMAX 0xff7fffff +#define EV_PMIN 0x00800001 +#define EV_NMIN 0x80800001 + +#define EV_IS_INFDENORMNAN(x) \ + (sim_fpu_is_infinity(x) || sim_fpu_is_denorm(x) || sim_fpu_is_nan(x)) + +/* These aren't used (yet?) For now, SPU is always enabled. + Would be nice if they were generated by igen for e500. */ +#define SPU_BEGIN \ +{ \ + if (MSR & msr_e500_spu_enable) { \ + +#define SPU_END \ + } else { \ + /* FIXME: raise SPU unavailable. */ \ + } \ +} + +/* These are also not yet used. */ +#define SPU_FP_BEGIN \ +{ + +#define SPU_FP_END \ + { \ + unsigned s = SPEFSCR; \ + /* Check SPEFSCR; raise exceptions if any required. */ \ + if (((spefscr_finxe || spefscr_finve) \ + && (s & (spefscr_finvh|spefscr_finv))) \ + || ((spefscr_finxe || spefscr_fdbze) \ + && (s & (spefscr_fdbzh|spefscr_fdbz))) \ + || ((spefscr_finxe || spefscr_funfe) \ + && (s & (spefscr_funfh|spefscr_funf))) \ + || ((spefscr_finxe || spefscr_fovfe) \ + && (s & (spefscr_fovfh|spefscr_fovf)))) \ + /* FIXME: raise exceptions. */; \ + } \ +} diff --git a/sim/ppc/e500_registers.h b/sim/ppc/e500_registers.h new file mode 100644 index 0000000..cd12ab5 --- /dev/null +++ b/sim/ppc/e500_registers.h @@ -0,0 +1,83 @@ +/* e500 registers, for PSIM, the PowerPC simulator. + + Copyright 2003 Free Software Foundation, Inc. + + Contributed by Red Hat Inc; developed under contract from Motorola. + Written by matthew green <mrg@redhat.com>. + + This file is part of GDB. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License as published by + the Free Software Foundation; either version 2 of the License, or + (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 59 Temple Place - Suite 330, + Boston, MA 02111-1307, USA. */ + +/* e500 accumulator. */ + +typedef unsigned64 accreg; + +enum { + msr_e500_spu_enable = BIT(38) +}; + +/* E500 regsiters. */ + +enum + { + spefscr_sovh = BIT(32), /* summary integer overlow (high) */ + spefscr_ovh = BIT(33), /* int overflow (high) */ + spefscr_fgh = BIT(34), /* FP guard (high) */ + spefscr_fxh = BIT(35), /* FP sticky (high) */ + spefscr_finvh = BIT(36), /* FP invalid operand (high) */ + spefscr_fdbzh = BIT(37), /* FP divide by zero (high) */ + spefscr_funfh = BIT(38), /* FP underflow (high) */ + spefscr_fovfh = BIT(39), /* FP overflow (high) */ + spefscr_finxs = BIT(42), /* FP inexact sticky */ + spefscr_finvs = BIT(43), /* FP invalid operand sticky */ + spefscr_fdbzs = BIT(44), /* FP divide by zero sticky */ + spefscr_funfs = BIT(45), /* FP underflow sticky */ + spefscr_fovfs = BIT(46), /* FP overflow sticky */ + spefscr_mode = BIT(47), /* SPU MODE (read only) */ + spefscr_sov = BIT(48), /* Summary integer overlow (low) */ + spefscr_ov = BIT(49), /* int overflow (low) */ + spefscr_fg = BIT(50), /* FP guard (low) */ + spefscr_fx = BIT(51), /* FP sticky (low) */ + spefscr_finv = BIT(52), /* FP invalid operand (low) */ + spefscr_fdbz = BIT(53), /* FP divide by zero (low) */ + spefscr_funf = BIT(54), /* FP underflow (low) */ + spefscr_fovf = BIT(55), /* FP overflow (low) */ + spefscr_finxe = BIT(57), /* FP inexact enable */ + spefscr_finve = BIT(58), /* FP invalid operand enable */ + spefscr_fdbze = BIT(59), /* FP divide by zero enable */ + spefscr_funfe = BIT(60), /* FP underflow enable */ + spefscr_fovfe = BIT(61), /* FP overflow enable */ + spefscr_frmc0 = BIT(62), /* FP round mode control */ + spefscr_frmc1 = BIT(63), + spefscr_frmc = (spefscr_frmc0 | spefscr_frmc1), +}; + +struct e500_regs { + /* e500 high bits. */ + signed_word gprh[32]; + /* Accumulator */ + accreg acc; +}; + +/* SPE partially visible acculator */ +#define ACC cpu_registers(processor)->e500.acc + +/* e500 register high bits */ +#define GPRH(N) cpu_registers(processor)->e500.gprh[N] + +/* e500 unified vector register */ +#define EVR(N) ((((unsigned64)GPRH(N)) << 32) | GPR(N)) diff --git a/sim/ppc/idecode_expression.h b/sim/ppc/idecode_expression.h index 1f9b725..936583c 100644 --- a/sim/ppc/idecode_expression.h +++ b/sim/ppc/idecode_expression.h @@ -1,6 +1,6 @@ /* This file is part of the program psim. - Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au> + Copyright 1994, 1995, 1996, 1997, 2003 Andrew Cagney This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by @@ -18,6 +18,13 @@ */ +/* Additional, and optional expressions. */ +#ifdef WITH_ALTIVEC +#include "altivec_expression.h" +#endif +#ifdef WITH_E500 +#include "e500_expression.h" +#endif /* 32bit target expressions: diff --git a/sim/ppc/ppc-instructions b/sim/ppc/ppc-instructions index 56c03ae..a930dc8 100644 --- a/sim/ppc/ppc-instructions +++ b/sim/ppc/ppc-instructions @@ -198,6 +198,8 @@ unsigned32 fp_busy; /* floating point registers that are busy */ unsigned32 cr_fpscr_busy; /* CR/FPSCR registers that are busy */ signed16 spr_busy; /* SPR register that is busy or PPC_NO_SPR */ + unsigned32 vr_busy; /* AltiVec registers that are busy */ + signed16 vscr_busy; /* AltiVec status register busy */ signed16 issue; /* # of cycles until unit can accept another insn */ signed16 done; /* # of cycles until insn is done */ signed16 nr_writebacks; /* # of registers this unit writes back */ @@ -228,6 +230,8 @@ unsigned32 fp_busy; /* floating point registers that are busy */ unsigned32 cr_fpscr_busy; /* CR/FPSCR registers that are busy */ unsigned8 spr_busy[nr_of_sprs]; /* SPR registers that are busy */ + unsigned32 vr_busy; /* AltiVec registers that are busy */ + unsigned8 vscr_busy; /* AltiVec SC register busy */ unsigned8 busy[nr_ppc_function_units]; /* whether a function is busy or not */ }; @@ -320,6 +324,15 @@ void::model-static::model_trace_release:model_data *model_ptr, model_busy *busy } if (busy->spr_busy != PPC_NO_SPR) TRACE(trace_model, ("Register %s is now available.\n", spr_name(busy->spr_busy))); + if (busy->vr_busy) { + for(i = 0; i < 32; i++) { + if (((1 << i) & busy->vr_busy) != 0) { + TRACE(trace_model, ("Register v%d is now available.\n", i)); + } + } + } + if (busy->vscr_busy) + TRACE(trace_model, ("VSCR Register is now available.\n", spr_name(busy->spr_busy))); # Trace making registers busy void::model-static::model_trace_make_busy:model_data *model_ptr, unsigned32 int_mask, unsigned32 fp_mask, unsigned32 cr_mask @@ -398,6 +411,8 @@ void::model-internal::model_new_cycle:model_data *model_ptr model_ptr->cr_fpscr_busy &= ~cur_busy->cr_fpscr_busy; if (cur_busy->spr_busy != PPC_NO_SPR) model_ptr->spr_busy[cur_busy->spr_busy] = 0; + model_ptr->vr_busy &= ~cur_busy->vr_busy; + model_ptr->vscr_busy = ~cur_busy->vscr_busy; if (WITH_TRACE && ppc_trace[trace_model]) model_trace_release(model_ptr, cur_busy); @@ -454,6 +469,8 @@ model_busy *::model-internal::model_make_busy:model_data *model_ptr, ppc_functio busy->fp_busy = 0; busy->cr_fpscr_busy = 0; busy->nr_writebacks = 0; + busy->vr_busy = 0; + busy->vscr_busy = 0; } busy->unit = unit; @@ -4973,3 +4990,6 @@ void::function::invalid_zero_divide_operation:cpu *processor, unsigned_word cia, 0.31,6.RT,11.RA,16.RB,21.310,31./:X:earwax::External Control In Word Indexed 0.31,6.RS,11.RA,16.RB,21.438,31./:X:earwax::External Control Out Word Indexed + +:include:::altivec.igen +:include:::e500.igen diff --git a/sim/ppc/ppc-spr-table b/sim/ppc/ppc-spr-table index 373fb6b..221ccbe 100644 --- a/sim/ppc/ppc-spr-table +++ b/sim/ppc/ppc-spr-table @@ -31,6 +31,7 @@ DEC:22:0:0 SDR1:25:0:0 SRR0:26:0:0 SRR1:27:0:0 +VRSAVE:256:0:0 SPRG0:272:0:0 SPRG1:273:0:0 SPRG2:274:0:0 @@ -39,6 +40,7 @@ EAR:282:0:0 TBL:284:0:0 TBU:285:0:0 PVR:287:0:0 +SPEFSCR:512:0:0 IBAT0U:528:0:0 IBAT0L:529:0:0 IBAT1U:530:0:0 diff --git a/sim/ppc/psim.c b/sim/ppc/psim.c index 1eb8e00..c20effb 100644 --- a/sim/ppc/psim.c +++ b/sim/ppc/psim.c @@ -848,6 +848,30 @@ psim_read_register(psim *system, *(unsigned_word*)cooked_buf = model_get_number_of_cycles(cpu_model(processor)); break; +#ifdef WITH_ALTIVEC + case reg_vr: + *(vreg*)cooked_buf = cpu_registers(processor)->altivec.vr[description.index]; + break; + + case reg_vscr: + *(vscreg*)cooked_buf = cpu_registers(processor)->altivec.vscr; + break; +#endif + +#ifdef WITH_E500 + case reg_gprh: + *(gpreg*)cooked_buf = cpu_registers(processor)->e500.gprh[description.index]; + break; + + case reg_evr: + *(unsigned64*)cooked_buf = EVR(description.index); + break; + + case reg_acc: + *(accreg*)cooked_buf = cpu_registers(processor)->e500.acc; + break; +#endif + default: printf_filtered("psim_read_register(processor=0x%lx,buf=0x%lx,reg=%s) %s\n", (unsigned long)processor, (unsigned long)buf, reg, @@ -873,6 +897,21 @@ psim_read_register(psim *system, case 8: *(unsigned_8*)buf = H2T_8(*(unsigned_8*)cooked_buf); break; +#ifdef WITH_ALTIVEC + case 16: + if (CURRENT_HOST_BYTE_ORDER != CURRENT_TARGET_BYTE_ORDER) + { + union { vreg v; unsigned_8 d[2]; } h, t; + memcpy(&h.v/*dest*/, cooked_buf/*src*/, description.size); + { _SWAP_8(t.d[0] =, h.d[1]); } + { _SWAP_8(t.d[1] =, h.d[0]); } + memcpy(buf/*dest*/, &t/*src*/, description.size); + break; + } + else + memcpy(buf/*dest*/, cooked_buf/*src*/, description.size); + break; +#endif } } else { @@ -937,6 +976,20 @@ psim_write_register(psim *system, case 8: *(unsigned_8*)cooked_buf = T2H_8(*(unsigned_8*)buf); break; +#ifdef WITH_ALTIVEC + case 16: + if (CURRENT_HOST_BYTE_ORDER != CURRENT_TARGET_BYTE_ORDER) + { + union { vreg v; unsigned_8 d[2]; } h, t; + memcpy(&t.v/*dest*/, buf/*src*/, description.size); + { _SWAP_8(h.d[0] =, t.d[1]); } + { _SWAP_8(h.d[1] =, t.d[0]); } + memcpy(cooked_buf/*dest*/, &h/*src*/, description.size); + break; + } + else + memcpy(cooked_buf/*dest*/, buf/*src*/, description.size); +#endif } } else { @@ -978,6 +1031,35 @@ psim_write_register(psim *system, cpu_registers(processor)->fpscr = *(fpscreg*)cooked_buf; break; +#ifdef WITH_E500 + case reg_gprh: + cpu_registers(processor)->e500.gprh[description.index] = *(gpreg*)cooked_buf; + break; + + case reg_evr: + { + unsigned64 v; + v = *(unsigned64*)cooked_buf; + cpu_registers(processor)->e500.gprh[description.index] = v >> 32; + cpu_registers(processor)->gpr[description.index] = v; + break; + } + + case reg_acc: + cpu_registers(processor)->e500.acc = *(accreg*)cooked_buf; + break; +#endif + +#ifdef WITH_ALTIVEC + case reg_vr: + cpu_registers(processor)->altivec.vr[description.index] = *(vreg*)cooked_buf; + break; + + case reg_vscr: + cpu_registers(processor)->altivec.vscr = *(vscreg*)cooked_buf; + break; +#endif + default: printf_filtered("psim_write_register(processor=0x%lx,cooked_buf=0x%lx,reg=%s) %s\n", (unsigned long)processor, (unsigned long)cooked_buf, reg, diff --git a/sim/ppc/registers.c b/sim/ppc/registers.c index 2181ced..8323601 100644 --- a/sim/ppc/registers.c +++ b/sim/ppc/registers.c @@ -150,6 +150,35 @@ register_description(const char reg[]) description.index = spr_ctr; description.size = sizeof(unsigned_word); } +#ifdef WITH_ALTIVEC + else if (reg[0] == 'v' && reg[1] == 'r' && are_digits(reg + 2)) { + description.type = reg_vr; + description.index = atoi(reg+2); + description.size = sizeof(vreg); + } + else if (!strcmp(reg, "vscr")) { + description.type = reg_vscr; + description.index = 0; + description.size = sizeof(vscreg); + } +#endif +#ifdef WITH_E500 + else if (reg[0] == 'e' && reg[1] == 'v' && are_digits(reg + 2)) { + description.type = reg_evr; + description.index = atoi(reg+2); + description.size = sizeof(unsigned64); + } + else if (reg[0] == 'r' && reg[1] == 'h' && are_digits(reg + 2)) { + description.type = reg_gprh; + description.index = atoi(reg+2); + description.size = sizeof(gpreg); + } + else if (!strcmp(reg, "acc")) { + description.type = reg_acc; + description.index = 0; + description.size = sizeof(unsigned64); + } +#endif else { sprs spr = find_spr(reg); if (spr != nr_of_sprs) { diff --git a/sim/ppc/registers.h b/sim/ppc/registers.h index 4da6ea4..15c9d43 100644 --- a/sim/ppc/registers.h +++ b/sim/ppc/registers.h @@ -1,6 +1,6 @@ /* This file is part of the program psim. - Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au> + Copyright 1994, 1997, 2003 Andrew Cagney This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by @@ -28,6 +28,19 @@ * */ +/* FIXME: + + For the moment use macro's to determine if the E500 or Altivec + registers should be included. IGEN should instead of a :register: + field to facilitate the specification and generation of per ISA + registers. */ + +#ifdef WITH_E500 +#include "e500_registers.h" +#endif +#if WITH_ALTIVEC +#include "altivec_registers.h" +#endif /** ** General Purpose Registers @@ -228,7 +241,6 @@ enum { srr1_subsequent_instruction = BIT(47) }; - /** ** storage interrupt registers **/ @@ -264,8 +276,14 @@ typedef struct _registers { /* Segment Registers */ sreg sr[nr_of_srs]; -} registers; +#if WITH_ALTIVEC + struct altivec_regs altivec; +#endif +#if WITH_E500 + struct e500_regs e500; +#endif +} registers; /* dump out all the registers */ @@ -281,6 +299,12 @@ typedef enum { reg_gpr, reg_fpr, reg_spr, reg_msr, reg_cr, reg_fpscr, reg_pc, reg_sr, reg_insns, reg_stalls, reg_cycles, +#ifdef WITH_ALTIVEC + reg_vr, reg_vscr, +#endif +#ifdef WITH_E500 + reg_acc, reg_gprh, reg_evr, +#endif nr_register_types } register_types; |